程序代写代做代考 algorithm Assignment 2, Face Recognition, Computer Vision, 2018

Assignment 2, Face Recognition, Computer Vision, 2018
Due: 11:59pm, 26/4/18

Javen Shi
The University of Adelaide

South Australia
javen.shi@adelaide.edu.au

Abstract

The second assignment is about face recognition. The
submission will take the form of a conference paper.

1. Tasks
We have the following tasks in this assignment.

1.1. Task 1: L2 method (40 points)

Following the definitions in [1], derive the solution of the
following objective function

argmin
α∈Rn

‖x−Aα‖2`2 + λ‖α‖
2
`2
, (1)

where λ > 0. Try a different λ and explain how it may
effect the result. Use equation (10) in [1] to find the face
ID.

1.2. Task 2: L1 method (40 points)

Following the definitions in [1], derive the solution of the
following objective function

argmin
α∈Rn

‖x−Aα‖2`2 + λ‖α‖`1 , (2)

where λ > 0. Try a different λ and explain how it may
effect the result. Use equation (10) in [1] to find the face
ID. [50 points]

Hint: you can download the face recognition code in [1]
from myuni, and modify it to suit your needs.

1.3. Task 3: Face detector (20 points)

Use any face detector to detect the face first, and then to
recognise them using the methods from Tasks 1 and 2.

1.4. Bonus Task 1: Face detection and recognition in
a supermarket from a single image (10 points)

Develop an algorithm that can detect and recognise all
faces in an image in a supermarket.

1.5. Bonus Task 2: Face detection and recognition
in a supermarket from a video (10 points)

Develop an algorithm that can detect and recognise all
faces in a video in a supermarket. Explain why we may
need to use a video rather than an image alone.

2. Submission
Please submit a single zip file (compression) via myuni

assignment submission interface.
In the zip file, please use two folders ’Report’, and

’Code’. Place your report pdf file only in the ’Report’
folder, and place your code in the folder ’Code’. Provide a
README.txt file in the ’Code’ folder to explain how to use
your code (such as downloading&installing some packages,
execution of your code). Do not put large packages/libraries
in ’Code’. Use README.txt to explain how to get pack-
ages/libraries. Keep the submission light.

The report takes the form of a CVPR conference paper
as we did before. CVPR papers are up to 8 pages, and
most of them are 8 pages. As for the assignment, it is lim-
ited to maximally 8 pages too, and there is no minimum
page requirement (as we adopt CVPR requirement). If you
can impress us positively with only 1 page, that is great.
Though I think putting everything beautifully in one page is
much harder than putting them in more pages. We will not
be marking the quality of your code, only checking that it
shows enough evidence that you wrote it yourself.

References
[1] Q. Shi, A. Eriksson, A. van den Hengel, and C. Shen. Is face

recognition really a compressive sensing problem? In Proc.
IEEE Conf. Computer Vision and Pattern Recognition, Col-
orado Springs, USA, 2011.

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