Face detection is one of the most suitable applications for image processing and biometric programs. Artificial neural networks have been used in the many field like image processing, pattern recognition, sales forecasting, customer research and data validation. Face detection and recognition have become one of the most popular biometric techniques over the past few years. There is a lack of research literature that provides an overview of studies and research-related research of Artificial neural networks face detection. Therefore, this study includes a review of facial recognition studies as well systems based on various Artificial neural networks methods and algorithms.
International Journal of Engineering Research and DevelopmentIJERD Editor
Electrical, Electronics and Computer Engineering,
Information Engineering and Technology,
Mechanical, Industrial and Manufacturing Engineering,
Automation and Mechatronics Engineering,
Material and Chemical Engineering,
Civil and Architecture Engineering,
Biotechnology and Bio Engineering,
Environmental Engineering,
Petroleum and Mining Engineering,
Marine and Agriculture engineering,
Aerospace Engineering.
Face detection is one of the most suitable applications for image processing and biometric programs. Artificial neural networks have been used in the many field like image processing, pattern recognition, sales forecasting, customer research and data validation. Face detection and recognition have become one of the most popular biometric techniques over the past few years. There is a lack of research literature that provides an overview of studies and research-related research of Artificial neural networks face detection. Therefore, this study includes a review of facial recognition studies as well systems based on various Artificial neural networks methods and algorithms.
International Journal of Engineering Research and DevelopmentIJERD Editor
Electrical, Electronics and Computer Engineering,
Information Engineering and Technology,
Mechanical, Industrial and Manufacturing Engineering,
Automation and Mechatronics Engineering,
Material and Chemical Engineering,
Civil and Architecture Engineering,
Biotechnology and Bio Engineering,
Environmental Engineering,
Petroleum and Mining Engineering,
Marine and Agriculture engineering,
Aerospace Engineering.
AN IMPROVED TECHNIQUE FOR HUMAN FACE RECOGNITION USING IMAGE PROCESSINGijiert bestjournal
Face recognition is a computer application technique for automatically identifying or
verifying a person from a digital image or a video frame source. To do this is by comparing
selected facial features from the digital image and a face dataset. It is basically used in
security systems and can be compared to other biometrics such as fingerprint recognition or
eye, iris recognition systems. The main limitation of the current face recognition system is
that they only detect straight faces looking at the camera. Separate versions of the system
could be trained for each head orientation, and the results can be combined using arbitration
methods similar to those presented here. In earlier work, the face position must be centerlight
position; any lighting effect will affect the system. Similarly the eyes of person must be
open and without glass.
CDS is the criminal face identification by capsule neural network.
Solving the common problems in image recognition such as illumination problem, scale variability, and to fight against a most common problem like pose problem, we are introducing Face Reconstruction System.
HUMAN FACE RECOGNITION USING IMAGE PROCESSING PCA AND NEURAL NETWORKijiert bestjournal
Security and authentication of a person is a vital part of any business. There are many techniques use d for this purpose. One of technique is human face recognition . Human Face recognition is an effective means of authenticating a person. The benefit of this approa ch is that,it enables us to detect changes in the face pattern of an individual to substantial extent. The recognition s ystem can tolerate local variations in the face exp ression of an individual. Hence Human face recognition can be use d as a key factor in crime detection mainly to iden tify criminals. There are several approaches to Human fa ce recognition of which Image Processing Principal Component Analysis (PCA) and Neural Networks have been includ ed in our project. The system consists of a databas e of a set of facial patterns for each individual. The charact eristic features called �eigenfaces� are extracted from the stored images using which the system is trained for subseq uent recognition of new images.
AN IMPROVED TECHNIQUE FOR HUMAN FACE RECOGNITION USING IMAGE PROCESSINGijiert bestjournal
Face recognition is a computer application technique for automatically identifying or
verifying a person from a digital image or a video frame source. To do this is by comparing
selected facial features from the digital image and a face dataset. It is basically used in
security systems and can be compared to other biometrics such as fingerprint recognition or
eye, iris recognition systems. The main limitation of the current face recognition system is
that they only detect straight faces looking at the camera. Separate versions of the system
could be trained for each head orientation, and the results can be combined using arbitration
methods similar to those presented here. In earlier work, the face position must be centerlight
position; any lighting effect will affect the system. Similarly the eyes of person must be
open and without glass.
CDS is the criminal face identification by capsule neural network.
Solving the common problems in image recognition such as illumination problem, scale variability, and to fight against a most common problem like pose problem, we are introducing Face Reconstruction System.
HUMAN FACE RECOGNITION USING IMAGE PROCESSING PCA AND NEURAL NETWORKijiert bestjournal
Security and authentication of a person is a vital part of any business. There are many techniques use d for this purpose. One of technique is human face recognition . Human Face recognition is an effective means of authenticating a person. The benefit of this approa ch is that,it enables us to detect changes in the face pattern of an individual to substantial extent. The recognition s ystem can tolerate local variations in the face exp ression of an individual. Hence Human face recognition can be use d as a key factor in crime detection mainly to iden tify criminals. There are several approaches to Human fa ce recognition of which Image Processing Principal Component Analysis (PCA) and Neural Networks have been includ ed in our project. The system consists of a databas e of a set of facial patterns for each individual. The charact eristic features called �eigenfaces� are extracted from the stored images using which the system is trained for subseq uent recognition of new images.
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Automatic Attendance Management System Using Face Recognition
1. International Journal of Science and Research (IJSR)
ISSN (Online): 2319-7064
Volume 2 Issue 11, November 2013
www.ijsr.net
Automatic Attendance Management System Using
Face Recognition
Jomon Joseph1
, K. P. Zacharia2
1
M.Tech (By Research) Scholar, Anna University, Coimbatore, Jothipuram, Coimbatore, India
2
Professor, Department of Electronics & Communication Engineering, Saintgits College of Engineering,
Pathamuttom P.O., Kottayam-686532, Kerala, India
Abstract: Being one of the most successful applications of the image processing, face recognition has a vital role in technical field
especially in the field of security purpose. Human face recognition is an important field for verification purpose especially in the case of
student’s attendance. This paper is aimed at implementing a digitized system for attendance recording. Current attendance marking
methods are monotonous & time consuming. Manually recorded attendance can be easily manipulated. Hence the paper is proposed to
tackle all these issues.
Keywords: Image processing, Face recognition, PCA, Eigen Face, Microcontroller, MATLAB and Camera
1. Introduction
Facial recognition or face recognition as it is often referred
to as, analyses characteristics of a person's face image input
through a camera. It measures overall facial structure,
distances between eyes, nose, mouth, and jaw edges. These
measurements are retained in a database and used as a
comparison when a user stands before the camera. One of
the strongest positive aspects of facial recognition is that it is
non-intrusive. Verification or identification can be
accomplished from two feet away or more, without requiring
the user to wait for long periods of time or do anything more
than look at the camera.
Traditionally student’s attendance is taken manually by
using attendance sheet, given by the faculty member in class.
The Current attendance marking methods are monotonous &
time consuming. Manually recorded attendance can be easily
manipulated. Moreover, it is very difficult to verify one by
one student in a large classroom environment with
distributed branches whether the authenticated students are
actually responding or not. Hence the paper is proposed to
tackle all these issues [1].
The proposed system consists of a high resolution digital
camera to monitor the classroom or office room. It is
embedded on a micro-controller based motor system which
enables it to rotate in left & right directions. The data or
images obtained by the camera are sent to a computer
programmed system for further analysis. The obtained
images are then compared with a set of reference images of
each of the employees or students & mark the corresponding
attendance. The system also provides for continuous
monitoring of the classroom by an operator if needed. The
camera module can be a wireless or wired system.
2. System Overview
1) MATLAB section- The MATLAB section consists of the
face recognition module. Face Recognition module- Initially
the images of each of the users is provided for the MATLAB
& generate a set of facial features using of the feature
extraction methods viz. PCA (Principal Component
Analysis) –Thus we create a feature set for each of the
images provided in the database. During real time, the
images of human face may be extracted from a USB camera.
This involves MATLAB's Image Acquisition Toolbox, using
which a camera is configured, accessed & brought one frame
at a time into MATLAB's workspace for further processing
using MATLAB's Image Processing Toolbox. This method
uses eigen face approach for face recognition which was
introduced by Kirby and Sirovich in 1988 at Brown
University. The method works by analyzing face images and
computing eigenface which are faces composed of
eigenvectors. The comparison of eigenface is used to
identify the presence of a face and its identity. There is a five
step process involved with the system developed byTurk and
Pentland [1]. First, the system needs to be initialized by
feeding it a set of training images of faces. This is used to
define the face space which is set of images that are face
like. Next, when a face is encountered it calculates an
eigenface for it. By comparing it with known faces and using
some statistical analysis it can be determined whether the
image presented is a face at all.
2) Micro-controller based embedded hardware system- For
this project PIC micro-controller along with as servo motor
mechanism is used. The name PIC initially referred to
"Peripheral Interface Controller". PICs are popular with both
industrial developers and hobbyists alike due to their low
cost, wide availability, large user base, extensive collection
of application notes, availability of low cost or free
development tools, and serial programming (and re-
programming with flash memory) capability. Servomotors:-
A servomotor (servo) is an electromechanical device in
which a PWM input determines the position of the armature
of a motor. A servomotor is a rotary actuator that allows for
precise control of angular position. It consists of a motor
coupled to a sensor for position feedback, through a
reduction gearbox. It also requires a relatively sophisticated
controller, often a dedicated module designed specifically for
use with servomotors. Servomotors are used in applications
such as robotics, CNC machinery or automated
manufacturing. The camera is embedded on this system,
Paper ID: 2013482 327
2. International Journal of Science and Research (IJSR)
ISSN (Online): 2319-7064
Volume 2 Issue 11, November 2013
www.ijsr.net
which enables it to rotate in left & right directions. The data
or images obtained by the camera are sent to a computer
programmed system for further analysis. The obtained
images are then compared with a set of reference images of
each of the employees or students & mark the corresponding
attendance.
3. System Implementation
Figure 1: Block diagram Full
3.1 Face Recognition using Principal Component
Analysis
In this paper we have reviewed a face recognition method
based on feature extraction. By using extensive geometry, it
is possible to find the contours of the eye, eyebrow, nose,
mouth, and even the face itself. Principal component analysis
for face recognition is based on the information theory
approach. Here, the relevant information in a face image
extracted and encoded as efficiently as possible.
In mathematical terms, the principal components of the
distribution of faces or the eigenvectors of the covariance
matrix of the set of face images, treating an image as a point
(vector) in a very high dimensional face space is sought.
Here principal component analysis method will be presented
in more detail. The proposed system is based on an
information theory approach that decomposes face images
into a small set of characteristic feature images called „Eigen
faces‟, which are actually the principal components of the
initial training set of face images. Recognition is performed
by projecting a new image into the subspace spanned by the
Eigen faces („face space‟) and then classifying the face by
comparing its position in the face space with the positions of
the known individuals. The Eigen face approach gives us
efficient way to find this lower dimensional space. Eigen
faces are the Eigenvectors which are representative of each
of the dimensions of this face space and they can be
considered as various face features. Any face can be
expressed as linear combinations of the singular vectors of
the set of faces, and these singular vectors are eigenvectors
of the covariance matrices.
3.2 Eigen faces for Recognition
We have focused our research toward developing a sort of
unsupervised pattern recognition scheme that does not
depend on excessive geometry and computations like
deformable templates. Eigenfaces approach seemed to be an
adequate method to be used in face recognition due to its
simplicity, speed and learning capability. A previous work
based on the eigenfaces approach was done by M. Turkand
A. Pentland, in which, faces were first detected and then
identified. In this thesis, a face recognition system based on
the eigenfaces approach, similar to the one presented by M.
Turk and A. Pentland, is proposed.
The scheme is based on an information theory approach that
decomposes face images into a small set of characteristic
feature images called eigenfaces, which may be thought of as
the principal components of the initial training set of face
images. Recognition is performed by projecting a new image
onto the subspace spanned by the Eigen faces and then
classifying the face by comparing its position in the face
space with the positions of known individuals. Actual system
is capable of both recognizing known individuals and
learning to recognize new face images. The Eigenfaces
approach used in this scheme has advantages over other face
recognition methods in its speed, simplicity, learning
capability and robustness to small changes in the face image.
FACE-PRO, the actual face recognition software based on
the Eigen faces approach was developed in C programming
language on a personal computer. Although no optimizations
were performed for matrix operations, during the tests on a
Intel 80486 based personal computer, it was remarkable that
the system could build a training set that had 14 members
with 7 eigen faces over a 58 member demo face library by
updating all the feature vectors of the library members in
around one minute. Once the training set has been built,
recognitions were done near real time over this demo face
library in less than one second. Much of the previous work
on automated face recognition has ignored the issue of just
what aspects of the face stimulus are important for face
recognition. This suggests the use of an information theory
approach of coding and decoding of Face images,
emphasizing the significant local and global features. Such
features may or may not be directly related to our intuitive
notion of face features such as the eyes, nose, lips, and hair.
In the language of information theory, the relevant
information in a face image is extracted, encoded as
efficiently as possible, and then compared with a database of
models encoded similarly. A simple approach to extracting
the information contained in an image of a face is to
somehow capture the variation in a collection of face images,
independent of any judgment of features, and use this
information to encode and compare individual face images.
In mathematical terms, the principal components of the
distribution of faces, or the eigenvectors of the covariance
matrix of the set of face images, treating an image as point
(or vector) in a very high dimensional space is sought. The
eigenvectors are ordered, each one accounting for a different
amount of the variation among the face images.
3.3 Calculation of Eigen faces and Weights
Let a face image I(x,y) be a two-dimensional N x N array of
8-bit intensity values. An image may also be considered as a
vector of dimension N2 , so that a typical image of size 256
x 256 becomes a vector of dimension 65,536, or equivalently
a point in 65,536-dimensional space. An ensemble of
images, then, maps to a collection of points in this huge
space. Images of faces, being similar in overall
configuration, will not be randomly distributed in this huge
image space and thus can be described by a relatively low
dimensional subspace. The main idea of the principal
component analysis (or Karhunen-Loeve expansion) is to
find the vectors that best account for the distribution of face
Paper ID: 2013482 328
3. International Journal of Science and Research (IJSR)
ISSN (Online): 2319-7064
Volume 2 Issue 11, November 2013
www.ijsr.net
images within the entire image space. These vectors define
the subspace of face images, which we call "face space".
Each vector is of length N2 , describes an N x N image, and
is a linear combination of the original face images. Because
these vectors are the eigenvectors of the covariance matrix
corresponding to the original face images, and because they
are face-like in appearance, we refer to them as "eigenfaces".
Some examples of eigenfaces are shown in Figure 5.2. An N
x N matrix A is said to have an eigenvector X, In linear
algebra, the eigenvectors of a linear operator are non-zero
vectors which, when operated on by the operator, result
in a scalar multiple of them. The scalar is then called the
eigenvalue An N x N matrix A is said to have an
eigenvector X, In linear algebra, the eigenvectors of a linear
operator are non-zero vectors which, when operated on
by the operator, result in a scalar multiple of them.
The scalar is then called the eigenvalue associated with
the eigenvector(X). Eigen vector is a vector that is scaled by
a linear transformation. It is a property of a matrix. When a
matrix acts on it, only the vector magnitude is changed not
the direction
X
AX
(1)
Calculations of eigen values and eigen vectors
0
I
A (2)
Where I is the n x n Identity matrix.We know that a
nontrivial solution exists if and only if
o
I
A
det (3)
Where det () denotes determinant.
If A is n x n, then there are n solutions or n roots of the
characteristic polynomial. Thus there are n eigen values of
A satisfying the equation Where i=1, 2, 3….n
We assume the training sets of images are m
....
, ,
2
1 with
each image is I (x, y).Convert each image into set of
vectors and new full-size matrix(m×p), where m is the
number of training images and p is x × y.
Find the mean face by:
=
m
i
i
m 1
1
(4)
Calculated the mean-subtracted face:
m
i
i
i ...
2
,
1
,
(5)
m
A
...
, 2
1
is the mean-subtracted matrix vector
with its size Amp. By implementing the matrix
transformations, the vectors matrix is reduced by
T
pm
mp
mn A
A
C
(6)
where C is the covariance matrix and T is transpose matrix.
Find the eigenvectors, Vmm and eigenvalues from the C
matrix using Jacobi method and ordered the eigenvectors
by highest eigenvalues. Jacobi’s method is chosen because
its accuracy and reliability than other
method.Apply the eigenvectors matrix, Vmm and adjusted
matrix, These vectors determine linear combinationsof the
training set images to form the eigenfaces, Uk by
m
k
V
U kn
m
n
n
k ...
2
,
1
,
1
(7)
Instead of using m eigenfaces, m’_<_m which we consider
the image provided for training are more than 1 for each
individuals or class. m’ is the total class used. Based on the
eigenfaces, each image have its face vector by:
m
k
U
W T
k
k ...
2
,
1
),
(
(8)
and mean subtracted vector of size and eigenfaces is
Upm’_. The weights form a feature vector
,
....
2
1 m
w
w
w
T
A face can be reconstructed by using its feature, vector and
previous eigen faces
f
(9)
Where
i
m
i
i
f U
w
1
4. Experiment
The steps of the experiment process are;
1.Initiate capturing the images through the camera which is
able to rotate in all direction in the class room.
2.Pre-process the captured images through and extract face
image.
3.Calculate the eigen value of the captured face image and
compared with that of the existing face images.
4.If the eigen value does not matches with the existing
one,save it as a new face image.
5.If the eigen values matches, then the recognition process
will start soon.
6.Using PCA algorithm the following steps would be
followed
7.Find the face information of matched face image in the
database.
8.Update the log table with corresponding face image and
system time that makes completion of attendance for an
individual students.
9.This section presents the results of the experiments.
5. Results
5.1 Test Image
Figure 2: Test Image
Paper ID: 2013482 329
4. International Journal of Science and Research (IJSR)
ISSN (Online): 2319-7064
Volume 2 Issue 11, November 2013
www.ijsr.net
5.2 Result
Figure 3: Attendance marked for Jomon
5.3 Test Result-Excel Report
Figure 4, Attendance marked for Jomon
6. Conclusion
Experimental results have shown that, the proposed face
recognition method was very sensitive to face background
and head orientations. Changes in the illumination did not
cause a major problem to the system. Besides, presence of
small detail such as dark glasses or masks was too far from
being a real challenge to the system. There exists a trade off
between the correct recognition rate and the threshold value.
As the threshold value increases, numbers of misses begin to
decrease, possibly resulting in misclassifications. On the
contrary, when the number of eigenfaces involved in the
recognition process increases misclassification rate begins to
decrease, possibly resulting in misses. The eigenface method
is very sensitive to head orientations, and most of the
mismatches occur for the images with large head
orientations.
7. Future Scope
The current recognition system has been designed for frontal
views of face images. A neural network architecture (may be
together with a feature based approach) can be implemented
in which the orientation of the face is first determined, and
then the most suitable recognition method is selected, Also
the current recognition system acquires face images only
from face files located on magnetic mediums. Camera and
scanner support should be implemented for greater
flexibility.
References
[1] M. A. Turk and A. P. Pentland, “Face Recognition Using
Eigenfaces,”in Proc. IEEE Conference on Computer
Vision and PatternRecognition, pp. 586–591. 1991.
[2] Nirmalya Kar, Mrinal Kanti Debbarma, Ashim Saha, and
Dwijen Rudra Pal” Study of Implementing Automated
Attendance SystemUsing Face Recognition Technique
“International Journal of Computer and Communication
Engineering, Vol. 1, No. 2, July 2012.
[3] Goldstein, A. J., Harmon, L. D., and Lesk, A. B.,
Identification of human faces", Proc. IEEE 59, pp. 748-
760, (1971).
[4] M.N.Shah Zainudin., Radi H.R., S.Muniroh Abdullah.,
Rosman Abd. Rahim., M.Muzafar Ismail,” Face
Recognition using PCA and LDA”, International Journal
of Electrical & Computer Sciences
[5] Yohei KAWAGUCHI ,Tetsuo SHOJI ,Weijane LIN ,and
Koh KAKUSHO , “Face Recognition-based Lecture
Attendance System”, Department of Intelligence Science
and Technology, Graduate School of Informatics, Kyoto
University.
Author Profile
Jomon Joseph received his Bachelor of Technology
Degree in Electronics & Communication Engineering
from Government Engineering College, Kottayam,
Kerala. He worked as an Assistant Professor in the
Department of Electronics and Communication at SAINTGITS
college of Engineering, Kottayam, Kerala, India. Currently he is
doing M. Tech (By Research) at Anna University, Coimbatore,
Tamilnadu, India.
Paper ID: 2013482 330