The project charter outlines a plan to install 16 cameras connected to a facial recognition database at the entrances of COMSATS University to identify authorized students, faculty and staff. The project will create a control room to monitor camera feeds and has milestones including installing cameras, laying cables, developing software to integrate with the university's existing database, and training security personnel. The goal is to enhance security through a user-friendly system that identifies individuals and prevents unauthorized access to the university.
This is a comparative strategic study of the different strategies that have led Tim Hortons and Starbucks to their current positions in the Canadian Market and based on the industry analysis and the internal organizational analysis, How they can move forward in this saturating industry. This takes into account the likely economic conditions that would impact the growth as well as the upcoming tends in the consumer base for this industry.
This is a comparative strategic study of the different strategies that have led Tim Hortons and Starbucks to their current positions in the Canadian Market and based on the industry analysis and the internal organizational analysis, How they can move forward in this saturating industry. This takes into account the likely economic conditions that would impact the growth as well as the upcoming tends in the consumer base for this industry.
Industrial safety is one of the main aspects of industry specially mining industry. In the mining industry safety is a very vital factor. To avoid loss of material and damaging of human health, protection system as well as faithful communication system is necessary inside the underground mines.
To increase both safety and productivity in mines, a reliable communication must be established between workers, moving in the mine, and a fixed base station. Inside mines, the wired communication system is not so effective, because of wires can be damaged inside mines.
In this project we are going to monitor the Mine parameters like abnormal gas, temperature and fire sensors to avoid the harmful gas or high temperature attacking the Mine workers. In this project to avoid loss of material and damaging of human health in mine workers because of using text to voice converter.
The text to voice converter gives continues information inside the mine workers and also cameras are used to video monitoring.
PROJECT-BASED MICROCONTROLLER SYSTEM LABORATORY USING BK300 DEVELOPMENT BOARD...ijesajournal
Microcontroller system is one of the vital subjects offered by students during the sequence of study in
universities and other colleges of science, engineering and technology in the world. In this paper, we solve
the problem of student comprehension and skill development in embedded system design using
microcontroller chip PIC16F887 by demonstration of hands-on laboratory experiments. Also,
developments of software code, circuit diagram simulation were carried out. This is to help students
connect their theoretical knowledge with the practical experience. Each of the experiments was carried out
using BK300 development board, PICKit3 programmer, Proteus 8.0 software. Our years of experience in
the teaching of microcontroller course and the active involvement of students as manifested in complete indepth hands-on laboratory projects on real life problem solving. Laboratory session with the development
board and software demonstrated in this article is unambiguous. Future embedded system laboratory
session could be designed around ATMel lines of Microcontrollers.
Microcontroller system is one of the vital subjects offered by students during the sequence of study in universities and other colleges of science, engineering and technology in the world. In this paper, we solve the problem of student comprehension and skill development in embedded system design using microcontroller chip PIC16F887 by demonstration of hands-on laboratory experiments. Also, developments of software code, circuit diagram simulation were carried out. This is to help students connect their theoretical knowledge with the practical experience. Each of the experiments was carried out using BK300 development board, PICKit3 programmer, Proteus 8.0 software. Our years of experience in the teaching of microcontroller course and the active involvement of students as manifested in complete in-depth hands-on laboratory projects on real life problem solving. Laboratory session with the development board and software demonstrated in this article is unambiguous. Future embedded system laboratory session could be designed around ATMel lines of Microcontrollers.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Background Information for the Campus Network Design ProjectXUMU.docxikirkton
Background Information for the Campus Network Design Project
XUMUC is large online university in the Eastern United States. The university has an enrollment of 90,000 students, mostly online. The students do not live on campus and are scattered around the globe. XUMUC offer courses in the fields of arts and humanities, business, social sciences, mathematics, computer science, the physical sciences, and health sciences. Many of the professors are working professionals with jobs in the business community, and only 5% of the 3000 faculty have offices on main campus. Due to opening of new online universities in the DC metropolitan area, the university has had difficult time attracting new students. The college wishes to attract and retain more students, many of whom leave the state to attend more prestigious colleges. Because of these reasons and others, the State advisory board expanded the Shady Grove campus of XUMUC. Nine states colleges open their branches at Shady Grove location. XUMUC’s management board now wishes to consolidate management functions at its Shady Grove location.
The president of XUMUC formed an Advisory Group whose mission was to consolidate IT functions and implement state of the art network to attract prospective students. The
Advisory Group was also to determine why prospective students do not select XUMUC. The group determined that many prospective students do not select XUMUC because they perceive the computer facilities at XUMUC to be inadequate. In addition to the computer applications used by the students and professors, the college administration personnel use the College Management System, which is a Novell NetWare client/server application that keeps track of class registrations and student records.
The Current Network at Shady Grove Campus:
The Shady Grove campus hosts 9 independent universities working independently. The campus has three main buildings and fiber optic cable is used for backbone connections. The campus diagram is shown below.
U N I V E R S I T Y
Building-2Building-1Building-3
XUMUC Shady Grove Campus
Towson
UB
Bowe
UMCP
Class Rooms
Labs
SE
UMES
UMBC
Class Rooms
UMUC
Library
Class Rooms
UMB
Labs
Each building is connected by fiber optic cable. Because most of the students that attend XUMUC do so on a part-time basis, and because much of the faculty have other jobs, the assumption in the past has been that many of the students and professors use computing resources at home or at work and do not depend on the XUMUC network. The current network is shown in Figure -1.
Fig:-1
Internet
Internet
Internet
Internet
Towson 4WS
UB 5WS
Bowe 5WS
UMCP 8WS
Class Rooms
and Labs
ES 4WS
UMES 8WS
UMBC 12WS
UMUC20WS
Library 25 WS
Class Rooms
UMB 15WS
Current Network Topology ShadyGrove
All the LANs at this site use 10-Mbps Ethernet although they can be upgraded to 100 Mbps. Every building is equipped with Category-5 cabling and wall plates in the various offices, classrooms, and labs, though the cablin ...
American Research Journal of Humanities & Social Science (ARJHSS) is a double blind peer reviewed, open access journal published by (ARJHSS).
The main objective of ARJHSS is to provide an intellectual platform for the international scholars. ARJHSS aims to promote interdisciplinary studies in Humanities & Social Science and become the leading journal in Humanities & Social Science in the world.
Does your university campus have a technology network that delivers on students' needs today, and able to grow to become tomorrow's fully digital campus?
Industrial safety is one of the main aspects of industry specially mining industry. In the mining industry safety is a very vital factor. To avoid loss of material and damaging of human health, protection system as well as faithful communication system is necessary inside the underground mines.
To increase both safety and productivity in mines, a reliable communication must be established between workers, moving in the mine, and a fixed base station. Inside mines, the wired communication system is not so effective, because of wires can be damaged inside mines.
In this project we are going to monitor the Mine parameters like abnormal gas, temperature and fire sensors to avoid the harmful gas or high temperature attacking the Mine workers. In this project to avoid loss of material and damaging of human health in mine workers because of using text to voice converter.
The text to voice converter gives continues information inside the mine workers and also cameras are used to video monitoring.
PROJECT-BASED MICROCONTROLLER SYSTEM LABORATORY USING BK300 DEVELOPMENT BOARD...ijesajournal
Microcontroller system is one of the vital subjects offered by students during the sequence of study in
universities and other colleges of science, engineering and technology in the world. In this paper, we solve
the problem of student comprehension and skill development in embedded system design using
microcontroller chip PIC16F887 by demonstration of hands-on laboratory experiments. Also,
developments of software code, circuit diagram simulation were carried out. This is to help students
connect their theoretical knowledge with the practical experience. Each of the experiments was carried out
using BK300 development board, PICKit3 programmer, Proteus 8.0 software. Our years of experience in
the teaching of microcontroller course and the active involvement of students as manifested in complete indepth hands-on laboratory projects on real life problem solving. Laboratory session with the development
board and software demonstrated in this article is unambiguous. Future embedded system laboratory
session could be designed around ATMel lines of Microcontrollers.
Microcontroller system is one of the vital subjects offered by students during the sequence of study in universities and other colleges of science, engineering and technology in the world. In this paper, we solve the problem of student comprehension and skill development in embedded system design using microcontroller chip PIC16F887 by demonstration of hands-on laboratory experiments. Also, developments of software code, circuit diagram simulation were carried out. This is to help students connect their theoretical knowledge with the practical experience. Each of the experiments was carried out using BK300 development board, PICKit3 programmer, Proteus 8.0 software. Our years of experience in the teaching of microcontroller course and the active involvement of students as manifested in complete in-depth hands-on laboratory projects on real life problem solving. Laboratory session with the development board and software demonstrated in this article is unambiguous. Future embedded system laboratory session could be designed around ATMel lines of Microcontrollers.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Background Information for the Campus Network Design ProjectXUMU.docxikirkton
Background Information for the Campus Network Design Project
XUMUC is large online university in the Eastern United States. The university has an enrollment of 90,000 students, mostly online. The students do not live on campus and are scattered around the globe. XUMUC offer courses in the fields of arts and humanities, business, social sciences, mathematics, computer science, the physical sciences, and health sciences. Many of the professors are working professionals with jobs in the business community, and only 5% of the 3000 faculty have offices on main campus. Due to opening of new online universities in the DC metropolitan area, the university has had difficult time attracting new students. The college wishes to attract and retain more students, many of whom leave the state to attend more prestigious colleges. Because of these reasons and others, the State advisory board expanded the Shady Grove campus of XUMUC. Nine states colleges open their branches at Shady Grove location. XUMUC’s management board now wishes to consolidate management functions at its Shady Grove location.
The president of XUMUC formed an Advisory Group whose mission was to consolidate IT functions and implement state of the art network to attract prospective students. The
Advisory Group was also to determine why prospective students do not select XUMUC. The group determined that many prospective students do not select XUMUC because they perceive the computer facilities at XUMUC to be inadequate. In addition to the computer applications used by the students and professors, the college administration personnel use the College Management System, which is a Novell NetWare client/server application that keeps track of class registrations and student records.
The Current Network at Shady Grove Campus:
The Shady Grove campus hosts 9 independent universities working independently. The campus has three main buildings and fiber optic cable is used for backbone connections. The campus diagram is shown below.
U N I V E R S I T Y
Building-2Building-1Building-3
XUMUC Shady Grove Campus
Towson
UB
Bowe
UMCP
Class Rooms
Labs
SE
UMES
UMBC
Class Rooms
UMUC
Library
Class Rooms
UMB
Labs
Each building is connected by fiber optic cable. Because most of the students that attend XUMUC do so on a part-time basis, and because much of the faculty have other jobs, the assumption in the past has been that many of the students and professors use computing resources at home or at work and do not depend on the XUMUC network. The current network is shown in Figure -1.
Fig:-1
Internet
Internet
Internet
Internet
Towson 4WS
UB 5WS
Bowe 5WS
UMCP 8WS
Class Rooms
and Labs
ES 4WS
UMES 8WS
UMBC 12WS
UMUC20WS
Library 25 WS
Class Rooms
UMB 15WS
Current Network Topology ShadyGrove
All the LANs at this site use 10-Mbps Ethernet although they can be upgraded to 100 Mbps. Every building is equipped with Category-5 cabling and wall plates in the various offices, classrooms, and labs, though the cablin ...
American Research Journal of Humanities & Social Science (ARJHSS) is a double blind peer reviewed, open access journal published by (ARJHSS).
The main objective of ARJHSS is to provide an intellectual platform for the international scholars. ARJHSS aims to promote interdisciplinary studies in Humanities & Social Science and become the leading journal in Humanities & Social Science in the world.
Does your university campus have a technology network that delivers on students' needs today, and able to grow to become tomorrow's fully digital campus?
Connecting the Digital Campus - Building Tomorrow's Universities
1.P-Zone Charter
1. P-Zone Project Charter Page 1 of 6
Advanced Project Management
Peaceful Zone
Project Charter
Group Galaxy
Team Members:
1- ShakirSardar
2- AsadMehmood Raja
3- AsadMehmood
4- Ruqia Shiva
5- Barakatulah Rahmati
6- Mehtar Roydi
7- Abdullah Khan
2. P-Zone Project Charter Page 2 of 6
Project Name:Peaceful Zone Project Number:008020
1. PROJECT GOALS
Project Goal:
To strengthen the security measures of the COMSATS University compound in Islamabad through a
user-friendly system using face-detection technology and make teachers and students secure.
“we cannot give future to our youth but we can give our youth to the future”
(Franklin D. Roosevelt)
Justification:
COMSATS university compound is located in a relatively remote area of Islamabad and thus is
vulnerable to security threats. Holding several shifts of classes and activities makes it difficult for the
security personnel to have a cautious track of everyone entering and exiting the compound.
Understanding that a small security incident can cause a serious threat to the business of the university
and the life of faculty, staff and a thousand young students, increasing security measures seems to be a
primary and immediate need. For this purpose, cameras will be installed in every entry of COMSATS
Campus. These cameras will be connected to a database that has a list of every student, Faculty and
staff registered at COMSATS with their face detection criteria. Since COMSATS already have a
database system, it is envisioned that the costs related to the implementation of this project would be
minimal compared to the service being provided. Technical activities of this project will be managed
by a group of Computer Science students at the university to provide the technical and software
support. The University administration will be responsible to take care of the charges and construction
works as per the work breakdown and financial charges detailed in the project plan.
2. DELIVERABLES
1- Installation of 16 facial cameras with LED Flash on each camera in every entry of
COMSATS Campus. Each of the entries needs 2 cameras, one for entry and for exit.
i. 4 cameras in Gate #1 (Entry and Exit)
ii. 2 cameras in Gate #2 (Entry and Exit)
iii. 4 cameras in entry and exit of access to Parking space (Entry and Exit)
iv. 4 cameras in Gate # 3 ( Entry and Exit)
v. 2 cameras in access to Girls hostel (Entry and Exit)
3. P-Zone Project Charter Page 3 of 6
2- Erection of 16 steel columns in all COMSAT’s entry gates.
3- Creation of control room in the security office.
4- Adjusting of a powerful computer in the control room within the university security office,
connected to main gates (Gate 1 and Gate 3) to manage the database and has the ability of
handling multiple entries from different gates at the same time.
5- Three LED screen TV to monitor multiple feeds in the control room.
6- Supplying of powerful internet connection to sync/synchronization all cameras and the
database at the same time.
7- Placing of 8 powerful UPS (Power Saver) to secure the entry/exit gates at the time of load
shedding.
8- Construction of 8 foundations for installation of cameras/columns.
9- Linking of 6000 feet electricity cable for the cameras assembly.
10- Connecting of 7000 feet data cable for the assembly of cameras (optical fiber).
11- Digging a total of 3000 feet trench to lay down electricity and data cable (depending if it is
not already there and if it’s needed)
12- Installation of equipment such as sockets and data connection plugs.
13- Supplying/configuration of software to manage the whole system.
3. SCOPE DEFINITION
To develop a flawless security system in CIIT, because of threats to different Educational Institutions
and recent terrorist attack in APS Peshawar. With the help of advanced security system, we will assure
maximum security for students and faculty members and hence the education system will strengthen.
Our security system will restrict the entrance of unauthorized people in university premises. In this
accordance our system develops the psychological satisfaction in the minds of families of Students
and faculty. Moreover this project may reflect in better profits to the revenue of the university.
Our aim of the project is to improve security and prevent unprecedented threats through the regulation
of security cameras in every gates of COMSATS compound. Secondly, to substitute the students ID
card to facial detection technology to control the traffic in-and-out of the university. Therefore,
cameras will be connected to a database that has a list of every student, faculty and staff registered at
COMSATS with their face recognition criteria. Since COMSATS already have a database system, it is
envisioned that the costs related to the implementation of this project would be minimal compared to
the service being provided.
4. P-Zone Project Charter Page 4 of 6
4. PROJECT MILESTONES
1- Project charter approval.
2- Completion of planning phase.
i. Finalize location of cameras.
ii. Finalize route of trench.
iii. Access of university database.
3- Construction and procurement approval.
4- Start Execution phase
i. Construction of foundation of poles.
ii. Construction of steel columns.
iii. Implementation of trench.
5- Supply of technological and other resources.
6- Create and manage control room.
7- Installation of cameras and LED lights.
8- Installations of data plugs and power sockets.
9- Installation of computers.
10- Installation of LED screens.
11- Assembly of the network.
12- Installation of software (with university database).
13- Running a test phase.
14- Training security personnel to use and maintain the system.
15- Handing over the project.
16- Project closing celebration at Nandos Café with the project team.
5. ASSUMPTIONS, CONSTRAINTS & DEPENDENCIES
Assumptions:
1- Access to university database system
2- Money available before ordering equipment and hiring labor.
3- Security staff will be trained able-bodied, so they can response to any worse situation.
4- Cameras and poles are manufacture according to require design.
5- Availability of wireless systems, personal computers, optical fibers according to require length,
trenching tools and skilled man force
6- Land availability for insertion of optical fibers, installation of cameras and control room
5. P-Zone Project Charter Page 5 of 6
7- Offering a secured learning area
8- Securing business of the university
9- Saving the life of a thousand young students
10- Increasing security measures
11- Preventing security threats
12- Less time consuming (both for trainers and trainees)
13- Attracting trusts for being enrolled in a secured educational area
Constraints:
1- Possible financial limitation
2- Possible technological limitations
3- Destruction of existing infrastructures for the purpose of laying down data and power cables
4- Training/hiring security personnel to operate and maintain the system
5- Data entry for all the current faculty, staff members, students and alumni of the university in
the face detection database
6- Peaceful zone will be operational 24/7 on 16th August 2015(6 months).
7- Cameras of three design, wireless systems, optical fiber, UPS system, poles and personal
computers cost Rs.25,00,000.
8- Construction material cost Rs.7,00,000.
9- Skilful Labor cost Rs.3,00,000
10- To train security guards cost Rs.1,50,000
6. RELATED DOCUMENTS
1- Project executive team list with a paragraph of their profession.
2- Company organogram
3- Lane clearance report for insertion of optical fiber indicating there is no sewerage line or water
line in path of optical fiber
4- Tests reports of cameras and wireless system working after use for trial bases.
5- Character certificates of security guards
6. P-Zone Project Charter Page 6 of 6
7. PROJECT ORGANIZATIONAL STRUCTURE
Name Role Signature
Shakir Sardar
Project Manager
Ruqia Shiva
Assistant Manager
Barakatullah Rahmati
Finance Manager
Asad Mehmood
Head Technician
Asad Mehmood Raja
Chief Engineer
Mehtar Roydi Akbar
Procurement Manager
Abdullah Khan
Monitoring and
controlling officer
8. PROJECT AUTHORIZATION
Approved by: Business Manager
Mrs. Ghazala Amin
Date:
28/03/2015
Approved by: Project Manager
Mr. ShakirSardar
Date:
28/03/2015