Personal Area Networks

강의상세

상세검색

언어유형

강의연도

CCL유형

Personal Area Networks

포항공과대학교
유찬수

페이스북 트위터 카카오톡 네이버밴드 링크복사

주제분류

공학 >컴퓨터ㆍ통신 >정보통신공학
등록일자

2010.08.27

조회수

8,549
평점

5/5.0 (1)

In this course, students will learn short-range wireless network solutions for personal and body area networks. Topics include network topologies, protocols, and industry standards for these networks such as Bluetooth, ZigBee, 802.15.3, and 802.15.4. They also include ultra low-power signal processing, RF communication near or in body networks, security provisions, and data fusion techniques. Personal and body area network scenarios and applications are also discussed. Students will have an opportunity to get first-hand experience with TinyOS-d sensornet and GNU Radio-d software radio platform.

수강안내 및 수강신청
※ 수강확인증 발급을 위해서는 수강신청이 필요합니다

Introduction and overview

차시별 강의

1.	Introduction and overview	Personal Area Networks (W)PAN and Body Area Network Body Network BAN Signals Communication Standards Bluetooth Interoperability BAN Challenges
2.	WLANs – 802.11 standards, QoS (802.11e), Security (802.11i, 802.11f)	Communication Standards IEEE 802.11 Standards 802.11-Physical 802.11 a/b Physical Infrastructure Mode IEEE 802.11 Ad Hoc Mode Terminology MAC Format IEEE 802.11 MAC or WMAC Basic Carrier Sense Approach CSMA in Wireless Networks Backoff Algorithm
3.	WLANs – 802.11 standards, QoS (802.11e), Security (802.11i, 802.11f)	IEEE 802.11 Standards Infrastructure Mode Backoff Algorithm Software Defined Radio(SDR) Cognitive Radio GNU Radio GNU Radio Components Architecture Dial Tone Exaple GRC(GNU Radio Companion)
4.	Bluetooth - Core specification, Profiles, Security, Future	Software Defined Radio(SDR) GNU Radio Bluetooth
5.	802.15 – 802.15.3 (HR WPAN), Very HR WPAN (UWB, DS-UWB, MB-OFDM), 802.15.4 (LR WPAN), ZigBee-1	IEEE 802.15.2 IEEE 802.15.3 PHY PHY Format Data Communication Quality of Service(QoS) Contention Access Period(CAP) Backoff Procedure in CAP MAC Format Power Management Security Keys 802.11 MAC
6.	Wireless communication - Inductive coupling, RF comm. in body, antenna, ultra-low power signal processing	Enabling Technology for PAN/BSN Wireless Sensor Networks(WSN) Typical WSN Structure WSN Scenarios Application Types Participants in WSN Data Centric Networking Radio Transceivers Tiny OS Basics Tiny OS Application Tiny OS Components ing Components
7.	802.15 – 802.15.3 (HR WPAN), Very HR WPAN (UWB, DS-UWB, MB-OFDM), 802.15.4 (LR WPAN), ZigBee-2	IEEE 802.15.4 IEEE 802.15.4 / ZigBee Architecture Bluetooth vs IEEE 802.15.4 802.15.4 / ZigBee Architecture PHY Data MAC MAC Format Communication Methods
8.	Security/Privacy-1	Security Basics Pseudo-random Generator(PRG) 802.11. Security: WEP WEP Vulnerability 802.15 Security End-to-end security Security in pervasive health
9.	Security/Privacy-2	Security Basics Pseudo-random Generator(PRG) 802.11. Security: WEP WEP Vulnerability 802.15 Security End-to-end security Security in pervasive health
10.	Security/Privacy-3	Security Basics Pseudo-random Generator(PRG) 802.11. Security: WEP WEP Vulnerability 802.15 Security End-to-end security Security in pervasive health
11.	BAN-systems(micro systems, energy scavenging)BAN-systems(micro systems, energy scavenging)-1	"Ultra" Low Power BAN Systems Switching between Modes Radio Transmitter Radio Receiver Energy-aware Transceivers 802.11/a/b Physical Computation vs Communication Sensor-MAC(S-MAC) IEEE 802.15.4 MAC Evolution of Signal Processing Compressive Sampling(Sensing) Amulet: Asynchronous Logic Analog vs Digital Processing
12.	BAN-systems(micro systems, energy scavenging)BAN-systems(micro systems, energy scavenging)-2	Biosensors Vital parameters to be measured CMOS-d Biosensors Biosensor Requirements Conclusion: Pervasive Healthcare PAN/BAN BAN Design