+234 813 0686 500
+234 809 3423 853


  • Type:Project
  • Chapters:5
  • Pages:76
  • Methodology:Nil
  • Reference:YES
  • Format:Microsoft Word
(Computer Science Project Topics & Materials)



Mobile phones are nowadays, far more than merely communication devices. In particular, Smartphones  and Tablets are  products  that  help  to  make  our  works  and  everyday  life  easier.  Along  with  the advance  in  technology  and  popularity  of  these  devices,  the  use  of  mobile  applications  increased enormously  in  the  last   few years.  Based  on  new  techniques  like  Global Positioning System (GPS)  and  sensors,  like  compass  and accelerometer, that can determine the orientation of the device, location-based applications coupled with augmented reality views are possible. In the context of this project, a navigation system that incorporates mobile application for Tai Solarin University of Education is developed. The system architecture and design were presented. The technologies used for the implementation of the application include Google Map API, HTML, Android development kit and Intel XDK. The resulting application enables the user to find paths to specific locations and provide location-based information on buildings, road and other facilities in the campus. This application developed offers visitors the ability to explore university campus facilities via mobile devices



Title page                                                                                                                    i

Certification                                                                                                                ii

Dedication                                                                                                                  iii

Acknowledgement                                                                                                      iv

Table of Contents                                                                                                       v

List of Table and Figures                                                                                            viii

Abstract                                                                                                                      ix





1.1              Background to the study                                                                                 1

1.2              Motivation                                                                                                      2

1.3              Problem Statement                                                                                         3

1.4              Aim and Objectives                                                                                        3

1.5              Scope of Study                                                                                               4

1.6              Limitations of Study                                                                                       4

1.7              Definition of Technical and Conceptual terms                                               4




2.1       Overview of Navigation System                                                                    6

2.2       Geographic Information System                                                                     8

2.2.1    Describing Geographical Data                                                                       9

2.3       Location Tracking on Mobile Device                                                             11

2.3.1    GPS-Based Positioning                                                                                   12

2.3.2    Wi-Fi-Based Positioning                                                                                14

2.4       Related Works                                                                                                15

2.4.1    Oregon University App                                                                                  15

2.4.2    Project Glass                                                                                                   17

2.4.3    UNIOSUN Navigation System                                                                      18

2.5       Summary of Literature Review                                                                      19




3.1       Introduction                                                                                                    20

3.1.1    Research Methodology                                                                                   21

3.1.2    System Methodology                                                                                      21

3.2       Requirement Gathering and Analysis                                                             21

3.2.1    Fact Finding Method                                                                                      21

3.2.2    Analysis of existing systems                                                                           22

3.2.3    Functional requirements of the proposed system                                           23

3.2.4    Non-Functional requirements of the proposed system                                   24

3.3       System Design                                                                                                27

3.3.1    Process Model                                                                                                27

3.3.2    Choice of Process Model and its Justification                                                29

3.3.3    Design Techniques                                                                                          30

3.3.4    User Interface Design                                                                                     33

3.3.5    System Architecture                                                                                       33





4.1       Introduction                                                                                                    36

4.2       Development Environment                                                                             36

4.3       Technologies Used                                                                                         37

4.3.1    HTML5                                                                                                           38

4.3.2    CSS                                                                                                                 38

4.3.3    JavaScript                                                                                                        39

4.4       Tools Used                                                                                                      41

4.4.1    Intel XDK                                                                                                       41

4.4.2    Firebug 2.0 Debugging Tool                                                                           41

4.5       Third Party Plugins Used                                                                               41

4.5.1    jQuery                                                                                                             41

4.6       System Application Interface Screenshots                                                     42

4.6.1    Main Menu                                                                                                     42

4.6.2    Search Form                                                                                                    43

4.6.3    Map View                                                                                                       44

4.7       Summary of System Development                                                                 46




5.1       Summary                                                                                                         47

5.2       Conclusion                                                                                                      47

            References                                                                                                      49

            Appendix                                                                                                       54




Fig. 2.1            GIS Latitude and Longitude                                                               9

Fig. 2.2            GIS – Projection Surfaces                                                                  10

Fig. 2.3            GIS – Projection Problems                                                                 11

Fig. 2.4            Intercepting Spheres                                                                           13

Fig. 2.5            Screenshot of Oregon University App                                               16

Fig. 2.6            HUD of Project                                                                                   17

Fig. 2.7            Google Glass Explorer Edition                                                          18

Fig. 2.8            UNIOSUN Navigation System                                                          19

Fig. 3.1            A Typical Waterfall Model                                                                30

Fig. 3.2            Use Case Diagram of the system                                                        31

Fig. 3.3            System Architecture of the Campus Navigation System                   34

Fig. 4.1            (a) Main Menu/ Hybrid Map, (b) Main Menu/ Road Map                 43

Fig. 4.2            (a) Empty Search Form, (b) Populated Search Form                         44

Fig. 4.3            Multi-touch Gestures: (a) Pinch, (b) Spread, (c) Scroll                      45

Fig. 4.4            (a) Hybrid Map Activity, (b) Road Map Activity                              45



Table 4.1         Development Environment                                                                 36


Share This


Type Project
Department Computer Science
Project ID CPU1605
Price ₦3,000 ($20)
Chapters 5 Chapters
No of Pages 76 Pages
Methodology Nil
Reference YES
Format Microsoft Word

Leave a comment...


    Type Project
    Department Computer Science
    Project ID CPU1605
    Price ₦3,000 ($20)
    Chapters 5 Chapters
    No of Pages 76 Pages
    Methodology Nil
    Reference YES
    Format Microsoft Word

    Related Works

    CHAPTER ONE INTRODUCTION 1.1      Background of the Study Elections form a critical process in democratic systems and application of information technologies to their management is a great milestone towards realizing effectiveness and efficiency not only in the results of the election process itself but also in the financial implications that... Continue Reading
    ABSTRACT Over the years students use manual ways to raise funds to support their election ambitions, help pay less privileged students school dues, sick friends and many other challenges which they face in the school. To overcome the problems of manual fund raising, the researcher has developed “an Online Campus Fund Raiser System”. The system... Continue Reading
    ABSTRACT The paper aims at designing and implementing a simple and concise system that collects opinions of university students concerning a subject matter via simple voting. The quest to voice out one’s opinion or thoughts on an issue in an effective, anonymous and faster method remains a challenge for most tertiary institutions in Nigeria.... Continue Reading
    ABSTRACT The abstract of the project is now the online help desk information system has eased the general public who wish to make there enquires, log complaints, make a suggestion. These incidents vary significantly in type and urgency and require the attention of officials... Continue Reading
    ABSTRACT This project work has covered the design of an automatic security lighting system for ATBU, Yelwa Campus. Requirements for illuminance, type of fittings, power dissipation and mounting height were put into consideration. An electronic model of the campus was built with the streets outlined and lamps fixed at positions along the streets... Continue Reading
    ABSTRACT Commercial vehicle registration is a job that requires accuracy of data and this exercise is required for every new registration. The emergence of e-data processing system provides answer to the need for tools and alternative ways to improve well-being and activities of individuals. This work design and implementation of a campus... Continue Reading
    ABSTRACT The paper aims at designing and implementing a simple and concise system that collects opinions of university students concerning a subject matter via simple voting. The quest to voice out one’s opinion or thoughts on an issue in an effective, anonymous and faster method remains a challenge for most tertiary institutions in Nigeria.... Continue Reading
    TABLE OF CONTENTS CHAPTER ONE:  INTRODUCTION 1.1 Background of the Study 1.2 Statement of Problem   1.3 Aim and Objectives Scope of the Project Significance of the Study Research Methodology Project Feasibility and Plan Economic Feasibility Schedule Feasibility Organization of Subsequent Chapters CHAPTER TWO: LITERATURE REVIEW 2.1 Introduction... Continue Reading
    CHAPTER ONE  INTRODUCTION  1.1       Background of Study  The state of the traffic system is influenced by travel demand and traffic supply characteristics. Travel demand is defined by Roess et al. (1998) as the number of vehicles or people that desire to travel past a point during a specified period. The main traffic supply... Continue Reading
    ABSTRACT Design and Implementation of a Computerised accounting system of an academic system The importance of accounting is gradually being recognized as germane to prudent management of any institution firm. This has necessitated the need for the computerization of structured operations of the Accounting managers structured operations are known... Continue Reading
    Call Us
    Get this work
    whatsappWhatsApp Us