Areej Al-Khalidi Qaies Alkaldi Jeremy Carrier Sean Kinney Jason Smith Sean Veit

1. Areej Al-Khalidi Qaies Alkaldi Jeremy Carrier Sean Kinney Jason Smith Sean Veit

2. Background and Market Research Concept -Create a Smart Home based on a personalized bluetooth signal emitted from a cell phone. Target -Create a fully functional network of nodes to control the lighting in multiple rooms. Market Research -Market relatively small but growing. Within 10 years could be quite large. -Very few companies that specialize in design and installation. -Room for new competitors. 1

3. Design Decomposition 2

4. Control Decomposition Workstation / Touchscreen VGA Touchscreen or Monitor w/ Mouse Only User-Interactive Component Very Graphical, User Friendly Oriented Accessible at Entry Way or Common Area Graphical User Interface C/C++ and Java Programming Languages Present User with Login Screen & Options Predetermined menu of Possible Settings Expected to Require the Most Research, Development and Testing Time of Project 3

5. Control Decomposition Host PC (Controller) Dedicated Workstation to Control All Network Communication Signals Software Written in C/C++ and Java Analyze and Record Incoming Sensor Data Send Respective Control Signals to Devices Activity Display Real-Time Display of Current Occupants and their Location Plotted over a Diagram of the Building Display Activity Log of Incoming as well as Outgoing Occupants ( Feature Optional ) 4

6. Module Decomposition 5

7. Module Decomposition 6

8. Module Decomposition 7

9. Discussion - Use a Wired Ethernet cable for communication between the PC and each node • If successfully completed, switch to a Wireless Network • using 802.11b • Bluetooth Class 2 Device • Transmits a signal between 10-15 meters • Strong enough to be detected in the room of the user but • not too strong to be detected by nodes in different rooms • Design a device for each node that will block the bluetooth • signal from coming through a wall 8

10. Discussion • Photo sensors placed in each room to detect light in a room • - During the day, a light would not be needed when the • user walks into a room • - Manual switch will also be available for the user for cases • when more light is needed • Recognizing the bluetooth signal at each node is very • important for our system to work properly • Configure the Graphical User Interface for the • Workstation to communicate with the Host PC 9

11. Personnel Personnel Areej Al-khalidi • Specialization: Electrical Engineer, Control Systems • Experience: Unmanned car design and image processing and analysis • Assignment: Data Acquisition / Sensors. • Qaies Alkaldi • Specialization: Electrical Engineer, DSP and Communication • Experience: Car alarm systems and high intensity discharge lights • Assignment: Bluetooth Sensors / Data Acquisition Jeremy Carrier • Specialization: Electrical Engineer, • Experience: Wireless Network Communication Systems and Graphical User Interface design • Assignment: Networking/Programming 10

12. Personnel Personnel Cont’d Sean Kinney Specialization: Electrical Engineer, Communications and Controls Experience: Industrial control and communication systems Assignment: Mechanical / Networking Jason Smith Specialization: Computer Engineer Experience: Power monitoring systems, microcontrollers, and real world projects Assignment: Programming / Power Sean Veit Specialization: Electrical Engineer, Circuits and Power systems Experience: Industrial project management and design Assignment: System Integrator / GUI 11

13. Personnel Group Specialization Break Down 12

14. Statement of Work • Planning the Project – December 3, 2004 • Design of CELNET – January 17, 2005 • Design GUI – February 21, 2005 • Design Controls - February 14, 2005 • Add additional rooms – February 28, 2005 • Test– March 11, 2005 13