1. Ben-Gurion University of The Negev Department of Communication Systems Engineering 2006 Klinger Yaniv 031438096 Wertzberger Elad 037248150 Supervisor: Prof. Ran Giladi King Bluetooth

2. Global 2.4GHz ISM band (2.402 – 2.480; 79 channels) Short range wireless communication (PDA, Cellular phones…) distance between 10m – 100m, depends on output power and the Bluetooth version. FHSS – Frequency Hopping Spread Spectrum (1600 hops/sec) Master – Slave architecture (ver 1.1) Logical Channels - Asynchronous (data). - Synchronous, connection oriented (voice). Ad-hoc Network Based on Bluetooth Infrastructure Bluetooth Technology

3. Ad-hoc Network Based on Bluetooth Infrastructure Bluetooth Protocol Stack

4. Ad-hoc Network Based on Bluetooth Infrastructure Piconet / Scatternet Piconet One unit acts as Master and up to 7 units acts as slaves. The Master controlles channel access. Scatternet Multiple Piconets with overlapping coverage areas. Each Piconet can only have a single Master, and has its own frequency hopping pattern.

5. Ad-hoc Network Based on Bluetooth Infrastructure INQUIRYPAGECONNECTION Connection Establishment Inquiry state – a device learns about the identity of other devices in its vicinity. Theses other devices must be in the inquiry scan state to listen for and respond to it. Page state – a device explicitly invites another device to join the piconet whose master is the inviting device. The other device must be in the page scan state to listen for and respond to the pages.

6. Ad-hoc Network Based on Bluetooth Infrastructure A Purpose: Looking for Unknown Devices Responses include: Device Address Class of Device Inqury Process

7. Ad-hoc Network Based on Bluetooth Infrastructure D C B slave B master A slave C slave D Purpose: Establish Connection Done for each device independently Paging device becomes master Paging Process

8. Ad-hoc Network Based on Bluetooth Infrastructure The Project goal is to connect 2 end devices over a Bluetooth network, while the end points act as a perfect substitute to RS-232 cable (Wireless cable replacement). Project Goals The Bluetooth devices are controlled by a microcontroller Scientific, Medical or Industrial Equipment BlueCore 2 RS232 Cable Replacment BlueCore 2 RS232 Cable Replacment Computer DCE Connect to DCE DTE Connect to DTE RS-232 Bluetooth Network

9. Ad-hoc Network Based on Bluetooth Infrastructure Project Goals

10. Ad-hoc Network Based on Bluetooth Infrastructure Bluetooth Device Scientific, Medical or Industrial Equipment כניסת מתח כניסת RS-232 DTE/DCE רכיב BlueCore2 מיקרובקר uPSD3233 רכיב ה -BlueCore2 בהגדלה מתגים "יבשים" רגש טמפרטורה

11. Ad-hoc Network Based on Bluetooth Infrastructure Bluetooth Device Devices Found: A, B, C, D A B C D Connect to C Find Devices Break Signal

12. Ad-hoc Network Based on Bluetooth Infrastructure Bluetooth Device Data From PC through RS232: Find Devices Data From Controller To BT: Inqury Data From BT To Controller: Found Devices A,B,C,D Data From Controller To PC: Found Devices A,B,C,D

13. Ad-hoc Network Based on Bluetooth Infrastructure Workspace Keil µVision 2 Cross Compiler An Embedded workspace for programming the microcontroller using C51. Merlin Bluetooth Protocol Analyzer

14. Ad-hoc Network Based on Bluetooth Infrastructure Workspace A simulation tool for the bluetooth enviroment. Can simulate different kinds of devices. Merlin Wand BlueZ enviroment under Linux Suse10 Caps