AIRWiki - User contributions [en]

File:Rivaandre.jpg

2008-06-16T15:51:37Z

AndreaRiva:

User:AndreaRiva

2008-06-16T15:50:47Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=AlessandroGiusti
|projectpage=Long Exposure Images for Resource-constrained video surveillance
|photo = rivaandre.jpg
}}

User:AndreaRiva

2008-06-16T15:43:10Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=AlessandroGiusti
|projectpage=Long Exposure Images for Resource-constrained video surveillance
|photo =
}}

User:AndreaRiva

2008-06-16T15:37:52Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=Alessandro Giusti
|projectpage=Long Exposure Images for Resource-constrained video surveillance
|photo =
}}

User:AndreaRiva

2008-06-16T15:36:57Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=Alessandro Giusti
|projectpage=Long Exposure Images for Resource-constrained video surveillance
|photo = foto
}}

User:AndreaRiva

2008-06-16T15:36:30Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=Alessandro Giusti
|projectpage=Long Exposure Images for Resource-constrained video surveillance
|photo =
}}

User:AndreaRiva

2008-06-16T15:34:15Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=Alessandro Giusti
|projectpage=Long Exposure Images for Resource-constrained video surveillance
}}

User:AndreaRiva

2008-06-16T15:33:43Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=[[User:AlessandroGiusti|Alessandro Giusti]]
|projectpage=Long Exposure Images for Resource-constrained video surveillance
}}

User:AndreaRiva

2008-06-16T15:32:18Z

AndreaRiva:

{{User
|firstname=Andrea
|lastname=Riva
|email=rivaandre(at)virgilio(dot)it
|advisor=[[User:AlessandroGiusti|Alessandro Giusti]]
}}

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:25:25Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

{|
| [[Image:magazzino.JPG|center|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:ottosec.JPG|center|thumb|Motion detection on the photo on the left|300px]]
|-
| [[Image:rampa.JPG|center|thumb|5 seconds exposure with a person walking|300px]] ||
[[Image:Cinquesec.JPG|center|thumb|Motion detection on the photo on the left|300px]]
|}

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:23:47Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

{|
| [[Image:magazzino.JPG|center|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:ottosec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
|-
| [[Image:rampa.JPG|center|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
|}

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:23:21Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

{|
| [[Image:magazzino.JPG|center|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:ottosec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
|-
| [[Image:rampa.JPG|center|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|300px]] ||
|}

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:22:39Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

{|
| [[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:ottosec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
|-
| [[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]] ||
[[Image:Cinquesec.JPG|left|thumb|8 seconds exposure with a person walking|300px]] ||
|}

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:19:45Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]] [[Image:ottosec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]

[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]] [[Image:Cinquesec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:19:21Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]

[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:18:51Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|right|thumb|8 seconds exposure with a person walking|300px]]

[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|right|thumb|8 seconds exposure with a person walking|300px]]

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:18:05Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|right|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|right|thumb|8 seconds exposure with a person walking|300px]]

<gallery>
Image:magazzino.JPG|8 seconds exposure with a person walking
Image:ottosec.JPG|8 seconds exposure with a person walking
</gallery>

<gallery>
Image:rampa.JPG|8 seconds exposure with a person walking
Image:Cinquesec.JPG|8 seconds exposure with a person walking
</gallery>

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:16:53Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec) taken with a Canon EOS 350D camera|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]

<gallery>
Image:magazzino.JPG|8 seconds exposure with a person walking
Image:ottosec.JPG|8 seconds exposure with a person walking
</gallery>
<gallery>
Image:rampa.JPG|8 seconds exposure with a person walking
Image:Cinquesec.JPG|8 seconds exposure with a person walking
</gallery>

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:15:49Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec)|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]

<gallery>
Image:magazzino.JPG|8 seconds exposure with a person walking
Image:ottosec.JPG|8 seconds exposure with a person walking
Image:rampa.JPG|8 seconds exposure with a person walking
Image:Cinquesec.JPG|8 seconds exposure with a person walking
</gallery>

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:15:04Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec)|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]

<gallery>
Image:magazzino.JPG|8 seconds exposure with a person walking
Image:ottosec.JPG|8 seconds exposure with a person walking
Image:rampa.JPG|8 seconds exposure with a person walking
</gallery>

=== Documentation and useful files ===

* [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]
* [[Media:CodeUbertiRiva.zip | Matlab source code]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:12:30Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec)|400px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|center|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|300px]]

=== Documentation and useful files ===

[[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:08:23Z

AndreaRiva: /* Useful link */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec)|300px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]

=== Documentation and useful files ===

[[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]

=== Useful link ===

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:08:02Z

AndreaRiva: /* Documentation and useful files */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

[[Image:Longexp.JPG|center|thumb|An example of long exposure image (1 sec)|300px]]

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:Cinquesec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]

=== Documentation and useful files ===

[[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | Documentation]]

=== Useful link ===

link to project documents and files (you can upload them using the [[Special:Upload]] page);

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:03:45Z

AndreaRiva: /* Documentation and useful files */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|right|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|left|thumb|8 seconds exposure with a person walking|400px]]
[[Image:Cinquesec.JPG|right|thumb|8 seconds exposure with a person walking|400px]]

=== Documentation and useful files ===

Documentation aviable [[Media:Long_Exposure_Images_for_Resource-constrained_video_surveillance.pdf | here]]

=== Useful link ===

link to project documents and files (you can upload them using the [[Special:Upload]] page);

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T15:02:22Z

AndreaRiva: /* '''Part 2: project description''' */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

[[Image:magazzino.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:ottosec.JPG|left|thumb|8 seconds exposure with a person walking|300px]]
[[Image:rampa.JPG|center|thumb|8 seconds exposure with a person walking|400px]]
[[Image:Cinquesec.JPG|center|thumb|8 seconds exposure with a person walking|400px]]

=== Documentation and useful files ===

[[Documentation]]

=== Useful link ===

link to project documents and files (you can upload them using the [[Special:Upload]] page);

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:38:44Z

AndreaRiva: /* Useful link */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

=== Useful link ===

link to project documents and files (you can upload them using the [[Special:Upload]] page);

PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html]

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:38:20Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

=== Useful link ===

link to project documents and files (you can upload them using the [[Special:Upload]] page);

(PETS, Performance Evaluation of Tracking and Surveillance [http://www.cvg.rdg.ac.uk/slides/pets.html])

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:29:23Z

AndreaRiva: /* Results and problems */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
* the feet of a walking person are detected very well, despite the rest of the body
* in some cases shadows can help detect motion, in other case no

link to project documents and files (you can upload them using the [[Special:Upload]] page);

link a PETS (dataset ecc...)

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:29:10Z

AndreaRiva: /* Preliminary studies */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

[[User:AndreaRiva|Andrea Riva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

[[User:MarcoUberti|Marco Uberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

* Long exposure photograpy technique
* Simulation of a long exposure photo using the mean of video frames
* Median filtering
* Motion detection using images difference
* Modelling images as signal plus gaussian noise
* Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
- the feet of a walking person are detected very well, despite the rest of the body
- in some cases shadows can help detect motion, in other case no

link to project documents and files (you can upload them using the [[Special:Upload]] page);

link a PETS (dataset ecc...)

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:28:12Z

AndreaRiva: /* '''Part 2: project description''' */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

Andrea Riva - [[AndreaRiva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

Marco Uberti - [[MarcoUberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

- Long exposure photograpy technique
- Simulation of a long exposure photo using the mean of video frames
- Median filtering
- Motion detection using images difference
- Modelling images as signal plus gaussian noise
- Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

=== Adopted solution ===

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

=== Results and problems ===

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
- the feet of a walking person are detected very well, despite the rest of the body
- in some cases shadows can help detect motion, in other case no

link to project documents and files (you can upload them using the [[Special:Upload]] page);

link a PETS (dataset ecc...)

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:27:42Z

AndreaRiva: /* '''Part 2: project description''' */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

[[User:AlessandroGiusti|Alessandro Giusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

Andrea Riva - [[AndreaRiva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

Marco Uberti - [[MarcoUberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

=== The Problem ===

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

=== Preliminary studies ===

This concept and preliminary studies have been used to elaborate the solution:

- Long exposure photograpy technique
- Simulation of a long exposure photo using the mean of video frames
- Median filtering
- Motion detection using images difference
- Modelling images as signal plus gaussian noise
- Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

'''Adopted solution'''

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

'''Results and problems'''

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
- the feet of a walking person are detected very well, despite the rest of the body
- in some cases shadows can help detect motion, in other case no

link to project documents and files (you can upload them using the [[Special:Upload]] page);

link a PETS (dataset ecc...)

Long Exposure Images for Resource-constrained video surveillance

2008-06-16T14:26:43Z

AndreaRiva: /* '''Part 2: project description''' */

== '''Part 1: project profile''' ==

=== Project name ===

Long Exposure Images for Resource-constrained video surveillance

=== Project short description ===

The aim of the project is to create a simple system for detecting movements in long exposure images, looking at the differences between them.
The work consists in taking some movement-detection tests using images taken in different situation and with an exposure varying between 1 and 30 seconds, seeking for satisfable results and parameters that can be used in a wide range of situations.

=== Dates ===
Start date: 2008/02/01

End date: ongoing

=== People involved ===

===== Project Advisor =====

A. Giusti - [[AlessandroGiusti]]

===== Students currently working on the project =====

===== Students who worked on the project in the past =====

Andrea Riva - [[AndreaRiva]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

Marco Uberti - [[MarcoUberti]] - as a project for the courses Image Analysis and Synthesis and
Advanced Topics of Image Analysis, prof. Caglioti

== '''Part 2: project description''' ==

'''The Problem'''

In some situations (e.g. wireless sensor networks), it may be useful to perform video surveillance tasks using long exposure images.
In long exposure images, moving objects appear blurred and often they are barely visible, depending on movement direction and speed and on the colour and contrast of the object.

'''Preliminary studies'''

This concept and preliminary studies have been used to elaborate the solution:

- Long exposure photograpy technique
- Simulation of a long exposure photo using the mean of video frames
- Median filtering
- Motion detection using images difference
- Modelling images as signal plus gaussian noise
- Datasets for videosurveillance

The principal problem in detecting movement in long exposure images is the blur of the subject in movement, that grows up with the exposure time.
Also other facts influences the detection, such as movement direction and speed,colours and contrast of the subject, and in particular the variation of the brightness of the scene.

'''Adopted solution'''

The simplest way to detect motion is making the difference between two images of the same scene with an appropriate threshold to avoid noise disturb. For better result, however, the threshold is automatically detected by compute the variance between more poses of the same scene without any motion. There are more than one method for compute the threshold: by avaraging the variance of all the pixels or by taking a different variance for each pixel.

'''Results and problems'''

The results vary very much for different exposures, movements, colors and contrast between the background and the moving object.
The principal problems encountered during motion detection are the variation of the brightness of the scene and the presence of shadows. The solution to the first problem is quite simple for some cases, but the second problem is very difficult to solve.
There are also some interesting aspects like:
- the feet of a walking person are detected very well, despite the rest of the body
- in some cases shadows can help detect motion, in other case no

link to project documents and files (you can upload them using the [[Special:Upload]] page);

link a PETS (dataset ecc...)