Latest PC based Computer Engineering Project Ideas 2014
1. Home automation (ac/dc) using PC interface.Computer Engineering Project
2. PC based data acquisition system using (max232).Computer Engineering Project
3. Microcontroller enabled PC based industrial protection.Computer Engineering Project
4. Robot direction controlling using RF communication .remote monitoring any alarm on PC using radio communication.Computer Engineering Project
5. Miniature real-time controller (6-channel outputs) with PC interface and i2c protocol.Computer Engineering Project
6. GPS navigator/logger (microcontroller board +PC software)Computer Engineering Project
7. PC based dc motor speed controlComputer Engineering Project
8. RF based communication system between keypad and PCComputer Engineering Project
9. 8 channel remote control using PC Computer Engineering Project
10. PC based smart home ---
11. PC based street light controller –
12. PC based temperature monitoring and control Computer Engineering Project
13. PC based remote controlled wireless automation system Computer Engineering Project
14. PC based ADC interfacing –
15. Industrial automation via PC .--
16. PC based data acquisition system by stimulating SPI and I2C protocol implementation.-
17. Microcontroller Based GSM and Pc interface.--
18. PC based robot controlling.Computer Engineering Project
19. Robotic arm manipulator using PC.
20. RFID data logger using PC.Computer Engineering Project
1. Home automation (ac/dc) using PC interface.
2. PC based data acquisition system using (max 232).
3. Micro controller enabled PC based industrial protection.
4. Robot direction controlling using RF communication .remote monitoring any alarm on PC using radio communication.
5. Miniature real-time controller (6-channel outputs) with PC interface and i2c protocol.
6. GPS navigator/logger (micro controller board +PC software
7. PC based dc motor speed control
8. RF based communication system between keypad and PC
9. 8 channel remote control using PC
10. PC based smart home.
11. PC based street light controller
12. PC based temperature monitoring and control
13. PC based remote controlled wireless automation system
14. PC based ADC interfacing
15. Industrial automation via PC .
16. PC based data acquisition system by stimulating SPI and I2C protocol implementation.
17. Micro controller Based GSM and Pc interface.
18. PC based robot controlling.
19. Robotic arm manipulator using PC.
20. RFID data logger using PC.
1. Can protocol implementation to enable robust serial communication for automotive applications.
2. Manchester code decoding controls the robot direction by TV remote.
3. Intelligent machine design by accessing the wireless commands.
4. Access control system using i-button with secret lock system.
5. Electronic eye with security system using RF with message broadcasting
6. Wireless digital energy meter.
7. Can networking for cars (controller area network of Bosch).
8. Design a prepaid electricity billing system using micro controller.
9. Micro controller based fire monitoring system in petrochemical industries
10. Interfacing color sensor with different wave lengths to micro controller.
11. Electronic door code lock using micro controller.
12. 8-channel data logger.
13. Temperature monitoring and control.
14. Bank token display system
15. Stepper motor control using micro controller.
16. Traffic light system.—
17. Modern house automation (ac/dc) using RF communication.--
18. Modern home (ac/dc) automation using GSM module.—
19. RFID based home/office security system.—
20. Tracing down the vehicle using GSM &satellite communication system
21. Automatic street power saving system with light dependent resistor.—
22. Temperature dependent dc fan speed control using thermistor---
23. Password operated industrial machinery control (wireless, more than 8 machinery).—
24. Digital lock.—
25. Electronic voting machine—
26. Industrial protection system using temperature, smoke sensors and light dependent resistor.3200/-
27. Stepper motor controller.—
28. Wireless chatting using RF.—
29. Interfacing a graphical LCD to microontroller.
30. Designing a prepaid electricity billing system using microcontroller for electric meter reading.
31. Wireless ac/dc device control for appliances using remote control.--
32. Self powered solar data logger.—
33. Microcontroller based fire monitoring system in petrochemical industries.—
34. Detecting the conditions of remote areas through data acquisition system using RF module.
35. Embedded based electronic code locking system.—
36. Microcontroller digital access control system—
37. Season based automatic streetlights switching.---
38. Microcontroller based temperature monitoring & contro—
39. Code request for door opening system.--
40. Autonomous robot that recognizes the obstacles and changes the path by it self using infra-red.—
41. Compact zigbee hand held unit for robot control.—
42. Real-time industrial process monitoring & control using GSM phone.—
43. High performance zigbee protocol implementation for RF communication.—
44. Microcontroller based unmanned bi-directional load carrier—
45. Embedded based digital object counter.—
46. Access control system using i-button.(1-wIRe protocol)—
47. Microwave heat oven temperature display system.—
48. Access control system with automatic door opening system. –
49. Password based electrical appliances control system using 89c51.—
50. RTC based intelligent automatic street light control using 89c51.—
51. 8-channel industrial security system using 89c51 MCU.—
52. Speed control of dc motor using pulse-width modulation.—
53. Graphical lcd display.—
54. Electronic eye 8051 based.—
55. Industrial automation & monitoring system.—
56. Detecting the conditions of remote areas through data acquisition system using RF module.
57. RFID based office attendance logger.—
58. RFID based parcel tracing system.—
59. Autonomous robot with path tracer.--
60. Implementation of colour sensor using 89c2051 microcontroller.—
61. Development of an embedded system for graphic information display.--
62. Development of an embedded system for multiprotocol data communication—
63. Zigbee stack development for industrial automation.--
64. Zigbee stack development for computer networking.—
65. Zigbee stack development for home automation.--
66. Design & implementation of RF based security system for industries
67. Wireless based (RF) industrial automation system.—
68. Implementing process control & monitoring system using can.—
69. Design and implementation of home automation using can.--
70. Implementing wireless PC to PC communication using RF.--
71. Automatic railway gate system.—
72. Microcontroller based standalone temperature measurement system.—
73. Fire fighting robotics with artificial intelligence.—
74. Embedded password based security door lock system using 89s52.—
75. LDR based power saver for street light control system using 89s52.—
76. Implementation of colour sensor.—
77. Energy meter with prepaid card.—
78. Automatic shopping mall door opening.—
79. Range measurement using IR.—
80. Microcontroller based reversible d.c motor control.—
81. Multilevel car parking by MCU
82. Automatic railway crossing Gate controller.—
83. Electronic eye with security system.---
84. Microcontroller based scrolling message display---
85. Light sensing robot.—
86. Voltage logger.—
87. Temperature control and monitoring.---
88. Wireless data acquisition. --
89. SPDT relay with under/over voltage protection. --
90. Programmable digital timer cum clock. --
91. I2C Based Weather Station Recorder. --
92. Metal Detector using microcontroller. --
93. Single channel data acquisition system (PC interface). –
94. Dual channel data acquisition system (PC interface).—
95. Multi-channel data acquisition system (PC interface).—
96. Eight channel data acquisition system (PC interface).
97. Data acquisition system with control system (PC interface). –
98. Intruder and burglar alarm—
99. Fire sensing and control system. –
100. Multi-channel fire sensing and control system
1. Vehicle tracking system with GPS & GSM.
2. Interfacing GPS receiver with micro controller.
3. GPS & GSM based car security system. Easy to find the stolen car.
4. Standalone GPS coordinates (latitude, longitude) locator.
5. GSM+GPS based school kids tracking system.
6. Grasping latitude and longitude position interfacing using global position system.(GPS).
7. GPS based base monitoring.
8. GPS based highway vehicle monitoring system.
Automotive Applications projects Ideas
1. Car head light system.
2. Car door locking system.
3. Car window adjustment system.
4. Car mirror adjustment system.
5. Car a.c control system using temperature.
6. Car engine temperature display.
7. Car upper layer temperature display system.
8. Car seat adjustment system.
9. Home appliances controlling system using can protocol.
10. Volvo bus engine temperature display system.
11. Can protocol based data acquisition system.
12. Can networking for cars (controller area network of Bosch)
13. Can protocol based automotive street light switching system.
14. Temperature based d.c motor speed control using can protocol.
15. Can protocol based traffic light system.
16. Real time security system using can protocol.
17. Robot controlling using can protocol.
18. PC based data acquisition system using can protocol.
In this paper we present an interesting case of what we call behavioral network engineering, i.e. an approach to optimize network operation by exploiting information about user's behavior. Behavioral information is needed both to characterize the overall usage context of the network and to describe the specific attitudes of single users. Indeed, in a network which is autonomically managed global knowledge of the current network "situation" is of paramount importance to optimally exploit available network resources. Furthermore, in case the behavior of single individuals can significantly impact network operation, it becomes mandatory to hold more fine-grained information. Distributed Denial of Service (DDoS) attacks represent an interesting example, since attack patterns can definitely be seen as particular (i.e. malicious) behaviors. To better illustrate the above concepts', we present an Intrusion Detection System (IDS) designed around the behavioral network engineering paradigm and relying on a flow monitoring system used for behavior summarization.
We introduce the Upgrading Shortest Paths Problem, a new
combinatorial problem for improving network connectivity with a wide
range of applications from multicast communication to wildlife habitat
conservation. We define the problem in terms of a network with node
delays and a set of node upgrade actions, each associated with a cost and
an upgraded (reduced) node delay. The goal is to choose a set of upgrade
actions to minimize the shortest delay paths between demand pairs of
terminals in the network, subject to a budget constraint. We show that
this problem is NP-hard. We describe and test two greedy algorithms
against an exact algorithm on synthetic data and on a real-world instance
from wildlife habitat conservation. While the greedy algorithms can do
arbitrarily poorly in the worst case, they perform fairly well in practice.
For most of the instances, taking the better of the two greedy solutions
accomplishes within 5% of optimal on our benchmarks. [ATTACHMENT NOT FOUND]
Cloud Computing (CC) is becoming popular as the latest technology in the infrastructure of the computing world.The CC allows the users to make use of the resources when needed.Mobile Cloud Computing (MCC) combines the cloud computing concept into a mobile setting and manages to deter barriers associated with performance of the mobile devices. However, this does not mean that there are no problems with these new advantages. MCC encounter some common security issues
include personal data management, privacy, identity authentication, and potential attacks. The security problems are major obstacle in the mobile cloud computing paradigm’s swift adaptability. This study initially provides the background to MCC,which includes definitions, infrastructure and its applications.
Furthermore, the different advantages of MCC will be highlighted
in the study.
Smart phones have entered the mainstream.
Most phones have similar capabilities.Common subset useful for certain class of applications (e.g. games).Developers are interested to push their applications to different platforms. Problem: Porting an application to different phones requires significant effort.
Android is used as development platform:
Developer only needs to know Android SDK.
Make use of well-documented SDK.
Powerful tools (debugging).
Support for arbitrary screen resolutions using layout managers
(Nexus One, iPhone, iPad, Netbooks).
Android application is cross-compiled to Objective-C or JavaScript.
Does not require a JVM on the iPhone!
Approach for Android to iPhone cross-compilation:
Create Java API for Cocoa Touch.
Cross-compile Java to Objective-C.
Write Android compatibility library on top of Cocoa Touch Java API.
Download this Free Tutorial For Cross-Compiling Android Application to Iphone.
Java has become one of the most popular
development platforms on the planet.
It is important for:
• Component-based software
• Embedded systems
• Smart cards
Java can be made more secure with the use of
• Advanced cryptography APIs and class libraries
• Language-level security mechanisms
• Built-in functionality that makes it more difficult to write insecure code
Java offers a multi-tiered security structure:
• Restricted access to file systems and the network
• Restricted access to browser internals
• Load-time and runtime checks to verify byte code
• Code signing and assigning a level of capability
Java Security Analysis paper discuss a brief analysis of java security model for programmer.
