Project Plan: Mobile Computing & Vehicle Communication Technologies

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Added on 2023/06/08

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This document presents a project proposal and plan focused on utilizing mobile computing for vehicle communication. The project aims to address traffic complications and enhance road safety by enabling communication between vehicles. The proposal includes a rationale, problem domain, purpose and justification, and sponsor recommendations. It also outlines research questions, a conceptual framework based on mobile computing, and a methodology involving research, system development, data collection, and ethical considerations. The project plan details deliverables, a work breakdown structure (WBS), risk analysis, duration estimates, and a Gantt chart. The proposal also acknowledges compliance requirements and data analysis methods. The primary risk identified is driver distraction, and security concerns related to interconnected devices. The document concludes with a bibliography of relevant sources.

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Running Head: EMERGING TECHNOLOGIES
Emerging Technologies
Name of the Student
Name of the University

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1EMERGING TECHNOLOGIES
Table of Contents
1. Title: Mobile Computing and Vehicle Communication..............................................................3
1. Project Blog.............................................................................................................................3
2. Rationale......................................................................................................................................3
1. Problem Domain......................................................................................................................3
2. Purpose and Justification.........................................................................................................4
3. Sponsor or Supervisor Recommendation....................................................................................4
4. Research Questions......................................................................................................................4
5. Conceptual or Theoretical Framework........................................................................................5
6. Methodology................................................................................................................................5
1. Research and Systems Development Method(s).....................................................................5
2. Data Collection or Systems Design Methods..........................................................................5
3. Ethical Issues...........................................................................................................................5
4. Compliance Requirements (Workplace, Industry or Government Regulations).....................6
5. Analysis of Data......................................................................................................................6
7. Project Plan..................................................................................................................................6
1. Deliverables.............................................................................................................................6
2. Work breakdown structure (WBS)..........................................................................................7
3. Risk Analysis...........................................................................................................................7
4. Duration...................................................................................................................................7
5. Gantt Chart.............................................................................................................................10
8. Bibliography..............................................................................................................................11

2EMERGING TECHNOLOGIES
1. Title: Mobile Computing and Vehicle Communication
1. Project Blog
Mobile computing is a very popular mode of computing around the world in which the
users use their mobile devices for various purposes like calling, messaging, internet surfing,
playing games and others. While mobile phones were initially developed as portable
telecommunication devices, the concept of mobile computing further increased the usability and
functionality of the mobile phones. With further development of mobile computing and
spontaneous upgrades being released, there have been ideas regarding the use of mobile
computing for even more benefits. One such idea is the use of mobile computing for vehicle
communication in order to make the roads, especially during high traffic rush, more secure and
accident free. This process will work if there are specially made mobile phones in each car that
will be able to communicate with all the nearby cars that have the same mobile devices in them.
Through the devices, the drivers can communicate with each other and avoid major accidents or
traffic complications.
2. Rationale
1. Problem Domain
The main problem to be addressed using the device is avoiding traffic complications and
accidents and make the roads safe and secure for the vehicles and pedestrians alike. Though the
communication system, the drivers can be able to communicate with other nearby drivers and
there will also be additional features weather report, traffic conditions on the nearby roads,
chatting, internet access, network games and others for the passengers inside the vehicles. The

3EMERGING TECHNOLOGIES
system can also be utilized by the traffic police to monitor the traffic on the road and allow entry
and exit of cars through different lanes.
2. Purpose and Justification
The purpose of the proposed system is to provide a wide range of mobile computing
functionalities inside a car that includes communication, entertainment, computation and storage
resources (cloud).
The purpose of the project is justified by the fact that it will not only improve the
experience of the drivers while driving, it will also make the roads much more secure and safe.
3. Sponsor or Supervisor Recommendation
This concept is still in hypothetical state and requires extensive research and design
before actually being implemented in the real scale. Not only it will require time and effort, it
will also require sufficient funding for design, usage and testing of the mobile computing devices
for vehicle communication. A suitable sponsor is required to fund for the project and moreover,
this project’s future is very bright and once the system is implemented in full scale, the sponsor
can receive significant amount of return of investment.
4. Research Questions
The main research questions developed for the project are:
 What will be maximum range of the vehicle communication device?
 How will the device work when there are a huge number of cars in the same
block?

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4EMERGING TECHNOLOGIES
5. Conceptual or Theoretical Framework
The main conceptual framework for the project is built on mobile computing that is
widely used around the world. However, instead of communication with the entire world, the
function of this particular mobile computing device will be limited to only the nearby cars on the
road while the driver is driving. This will allow the driver to communicate with nearby drivers
and avoid piling up of traffic as well as accidents.
6. Methodology
1. Research and Systems Development Method(s)
The research will be mainly based on previous works although they are few in number as
this is a very new concept. However, using the data gathered from the research, a system
blueprint will be developed that will include all the necessary features of the system. A
feasibility analysis will be conducted to determine whether the features are feasible for the
prepared design.
2. Data Collection or Systems Design Methods
Initial data will be collected from literature and later, data will be collected from the
experimental analysis and testing of the designed device for vehicular communication. In
addition, the system design method will follow agile methodology.
3. Ethical Issues
In addition to the possible benefits, there are some ethical issues associated as well
regarding the use of the device. While the device will be connected to multiple devices, it may be
a target of cyber attackers who may steal personal information of the drivers and will be able to

5EMERGING TECHNOLOGIES
access multiple devices through a single attack. Hence, privacy is major ethical issue in this
regard.
4. Compliance Requirements (Workplace, Industry or Government Regulations)
Owing to the issues and the possible risks, there should be several government, industry
and workplace regulations. The device will be developed such that it fulfills usage regulations set
by the government and the industry.
5. Analysis of Data
Data analysis will be conducted on the data collected from the literature as well as from
the experimental analysis of the usage of the device. It will provide a clear idea regarding
whether the intended target is reached or it will require further research and development.
7. Project Plan
1. Deliverables
The deliverables of the project are as follows.
 Conduct Literature Review for Project
 Gather Required Data
 Prepare System Blueprint
 Conduct Feasibility Testing
 Develop and Test the System
 Gather Experimental Analysis Data
 Data Analysis
 Reach Conclusion

6EMERGING TECHNOLOGIES
 Determine Future Scope
2. Work breakdown structure (WBS)
Figure 1: WBS of the Project
(Source: Created by Author)
3. Risk Analysis
The main risk associated with the device is that the drivers may get too occupied with the
device and ignore road safety and traffic rules resulting in accidents. Furthermore, there is the
risk of security due to connection with a large number of devices.
4. Duration
Task Name Duration Start Finish

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7EMERGING TECHNOLOGIES
Research and Development of
Vehicle Computing Device
83 days Wed 08-08-18 Fri 30-11-18
Project Initiation Phase 4 days Wed 08-08-18 Mon 13-08-18
Choosing a Topic for Research
Project
1 day Wed 08-08-18 Wed 08-08-18
Determine Scope of the Project 1 day Thu 09-08-18 Thu 09-08-18
Get the Project Approved 1 day Fri 10-08-18 Fri 10-08-18
Proceed for Planning 1 day Mon 13-08-18 Mon 13-08-18
Project Planning Phase 4 days Tue 14-08-18 Fri 17-08-18
Determine an Estimated
Schedule for Project
1 day Tue 14-08-18 Tue 14-08-18
Determine Resources Required 1 day Wed 15-08-18 Wed 15-08-18
Allocate Duties to Team
Members
1 day Thu 16-08-18 Thu 16-08-18
Start Working on Project 1 day Fri 17-08-18 Fri 17-08-18
Project Execution Phase 67 days Mon 20-08-18 Tue 20-11-18

8EMERGING TECHNOLOGIES
Conduct Literature Review for
Project
10 days Mon 20-08-18 Fri 31-08-18
Gather Required Data 5 days Mon 03-09-18 Fri 07-09-18
Prepare System Blueprint 10 days Mon 10-09-18 Fri 21-09-18
Conduct Feasibility Testing 5 days Mon 24-09-18 Fri 28-09-18
Develop and Test the System 15 days Mon 01-10-18 Fri 19-10-18
Gather Experimental Analysis
Data
10 days Mon 22-10-18 Fri 02-11-18
Data Analysis 5 days Mon 05-11-18 Fri 09-11-18
Reach Conclusion 5 days Mon 12-11-18 Fri 16-11-18
Determine Future Scope 2 days Mon 19-11-18 Tue 20-11-18
Project Closing Phase 8 days Wed 21-11-18 Fri 30-11-18
Submit Project Documentation 5 days Wed 21-11-18 Tue 27-11-18
Get the Project Reviewed 2 days Wed 28-11-18 Thu 29-11-18
Official Closing 1 day Fri 30-11-18 Fri 30-11-18

9EMERGING TECHNOLOGIES
5. Gantt Chart
ID Task
Mode
Task Name Duration Start Finish Predecessors
0 e earc and e elopment o e icle omp tin e iceR s h D v f V h C u g D vda83 ys edW 08-08-18riF 30-11-18
1 Pro ect nitiationj I
P a eh s
da4 ys edW
08-08-18
Mon
13-08-18
2 oo in aCh s g
Topic orf
e earcR s h
da1 y edW
08-08-18
edW
08-08-18
3 etermineD
cope o t eS f h
Pro ectj
da1 y Thu
09-08-18
Thu
09-08-18
2
4 et t eG h
Pro ectj
Appro edv
da1 y riF 10-08-18 riF 10-08-18 3
5 Proceed orf
Planning
da1 y Mon
13-08-18
Mon
13-08-18
4
6 Pro ect Planninj g
P a eh s
da4 ys T eu
14-08-18
riF 17-08-18
7 etermine anD
timatedEs
c ed le orS h u f
Pro ectj
da1 y T eu
14-08-18
T eu
14-08-18
5
8 etermineD
e o rceR s u s
e iredR qu
da1 y edW
15-08-18
edW
15-08-18
7
9 Allocate
tie toDu s
Team
da1 y Thu
16-08-18
Thu
16-08-18
8
10 tart or inS W k g
on Pro ectj
da1 y riF 17-08-18 riF 17-08-18 9
11 Pro ectj
ec tion P a eEx u h s
da67 ys Mon
20-08-18
T eu
20-11-18
12 ond ctC u
iterat reL u
e ie orR v w f
da10 ys Mon
20-08-18
riF 31-08-18 10
13 at erG h
e ired ataR qu D
da5 ys Mon
03-09-18
riF 07-09-18 12
14 Prepare
temSys
l eprintB u
da10 ys Mon
10-09-18
riF 21-09-18 13
15 ond ctC u
ea i ilitF s b y
Te tins g
da5 ys Mon
24-09-18
riF 28-09-18 14
16 e elop andD v
Te t t es h
temSys
da15 ys Mon
01-10-18
riF 19-10-18 15
17 at erG h
perimentalEx
Anal i atays s D
da10 ys Mon
22-10-18
riF 02-11-18 16
18 ata Anal iD ys s da5 ys Mon 05-11-18riF 09-11-18 17
19 eac oncl ionR h C us da5 ys Mon 12-11-18riF 16-11-18 18
20 etermineD
rt re copeFu u S
da2 ys Mon
19-11-18
T eu
20-11-18
19
21 Pro ect lo inj C s g
P a eh s
da8 ys edW
21-11-18
riF 30-11-18
22 mitSub
Pro ectj
oc mentationD u
da5 ys edW
21-11-18
T eu
27-11-18
20
23 et t eG h
Pro ectj
e ie edR v w
da2 ys edW
28-11-18
Thu
29-11-18
22
24 icial lo inOff C s g da1 y riF 30-11-18 riF 30-11-18 23
T S W S T M F T S W S T M F T S W S T M F T S W S T M F T S W
30 Jul '18 13 Aug '18 27 Aug '18 10 Sep '18 24 Sep '18 08 Oct '18 22 Oct '18 05 Nov '18 19 Nov '18 03 Dec '18
Figure 2: Gantt Chart of the Project
(Source: Created by Author)

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10EMERGING TECHNOLOGIES
8. Bibliography
Chen, W. (Ed.). (2015). Vehicular communications and networks: Architectures, protocols,
operation and deployment. Elsevier.
Choi, J., Va, V., Gonzalez-Prelcic, N., Daniels, R., Bhat, C. R., & Heath, R. W. (2016).
Millimeter-wave vehicular communication to support massive automotive sensing. IEEE
Communications Magazine, 54(12), 160-167.
Eltayeb, M. E., Choi, J., Al-Naffouri, T. Y., & Heath, R. W. (2017). Enhancing secrecy with
multi-antenna transmission in millimeter wave vehicular communication systems. IEEE
Trans. Veh. Technol, 66(9), 8139-8151.
Festag, A. (2015). Standards for vehicular communication—from IEEE 802.11 p to 5G. e & i
Elektrotechnik und Informationstechnik, 132(7), 409-416.
He, Z., Cao, J., & Liu, X. (2016). SDVN: enabling rapid network innovation for heterogeneous
vehicular communication. IEEE network, 30(4), 10-15.
Mumtaz, S., Huq, K. M. S., Ashraf, M. I., Rodriguez, J., Monteiro, V., & Politis, C. (2015).
Cognitive vehicular communication for 5G. IEEE Communications Magazine, 53(7),
109-117.
Ren, Y., Liu, F., Liu, Z., Wang, C., & Ji, Y. (2015). Power control in D2D-based vehicular
communication networks. IEEE Transactions on Vehicular Technology, 64(12), 5547-
5562.

11EMERGING TECHNOLOGIES
Sharef, B. T., Alsaqour, R. A., & Ismail, M. (2014). Vehicular communication ad hoc routing
protocols: A survey. Journal of network and computer applications, 40, 363-396.
Zhang, L., Hu, C., Wu, Q., Domingo-Ferrer, J., & Qin, B. (2016). Privacy-preserving vehicular
communication authentication with hierarchical aggregation and fast response. IEEE
Transactions on Computers, 65(8), 2562-2574.