• Title/Summary/Keyword: IEEE 802.15.4e

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Multi-channel QoS scheduling algorithm in IEEE 802.15.4e (IEEE 802.15.4e 멀티 채널 QoS 스케줄링 알고리즘)

  • Wu, Hyuk;Kim, Hak-Kyu;Lee, Dong-Jun;Kang, Ho-Yong
    • Journal of Advanced Navigation Technology
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    • v.15 no.5
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    • pp.764-773
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    • 2011
  • IEEE 802.15.4 is a standard for LWPAN based on TDMA. IEEE 802.15.4 has not been used widely because of restrictions on the QoS, scalability, and reliability. IEEE 802.15.4 utilizes GTS for one-hop QoS transmission. However GTS is not an effective method to satisfy QoS in multi-hop environments. Currently IEEE 802.15.4e, an extended version of IEEE 802.15.4 MAC sub-layer, is being developed to satisfy more diverse performance requirements than IEEE 802.15.4. IEEE 802.15.4e provides muti-hop QoS transmission functionality and uses multiple frequency channels. In this paper, a multi-channel TDMA scheduling scheme is proposed to satisfy end-to-end transmission delay in IEEE 802.15.4e. The performance of the proposed scheme is evaluated using simulation.

Performance Evaluation on the Power Consumption of IEEE802.15.4e TSCH (IEEE802.15.4e TSCH의 소비전력에 대한 성능평가)

  • Kim, Dongwon;Youn, Mi-Hee
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.18 no.1
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    • pp.37-41
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    • 2018
  • In this paper, we evaluate the power consumption of IEEE802.15.4e TSCH which uses the specific link scheduling scheme proposed in reference[1]. And we also compares it with the power consumption of conventional single channel IEEE802.15.4. The power consumption of IEEE802.15.4e TSCH is smaller than the conventional one under the any conditions of traffic. The reasons can be explained as the followings. Firstly, TSCH does not have backoff time because of using the collision free link scheduling. Secondly, there is the timing difference of MAC offset parameter between TSCH and conventional IEEE802.15.4 Lastly, the devices in TSCH mode sleep during the time slots which are not assigned to itself.

Performance Analysis of IEEE 802.15.4e Time Slotted Channel Hopping for Low-Rate Wireless Networks

  • Chen, Shuguang;Sun, Tingting;Yuan, Jingjing;Geng, Xiaoyan;Li, Changle;Ullah, Sana;Alnuem, Mohammed Abdullah
    • KSII Transactions on Internet and Information Systems (TIIS)
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    • v.7 no.1
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    • pp.1-21
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    • 2013
  • The release of IEEE 802.15.4e specification significantly develops IEEE 802.15.4. The most inspiring improvement is the enhancement for medium access control (MAC) sublayer. To study the performance of IEEE 802.15.4e MAC, in this paper we first present an overview of IEEE 802.15.4e and introduce three MAC mechanisms in IEEE 802.15.4e. And the major concern here is the Time Slotted Channel Hopping (TSCH) mode that provides deterministic access and increases network capacity. Then a detailed analytical Markov chain model for TSCH carrier sense multiple access with collision avoidance (CSMA-CA) is presented. Expressions which cover most of the crucial issues in performance analysis such as the packet loss rate, energy consumption, normalized throughput, and average access delay are presented. Finally the performance evaluation for the TSCH mode is given and we make a comprehensive comparison with unslotted CSMA-CA in non-beacon enabled mode of IEEE 802.15.4. It can validate IEEE 802.15.4e network can provide low energy consumption, deterministic access and increase network capacity.

Scheduling Scheme and Performance Analysis of IEEE802.15.4e TSCH (IEEE802.15.4e TSCH의 스케줄링 방식 및 성능분석)

  • Park, Mi-Ryong;Kim, Dongwon
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.17 no.5
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    • pp.43-49
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    • 2017
  • In this paper, we propose the scheduling scheme of IEEE802.15.4e TSCH which is not specified in standard specification. The proposed scheme schedules the link by cooperating among the devices. A new device scans EBs(Enhanced Beacons) from network. An advertiser device broadcasts an enhanced beacon frame including links information on allocated channel offset and time-slots, and a new device can determine its own channel offset and time-slot. It's performance on maximum throughput and minimum delay is evaluated by comparing the proposed approach with a typical single channel IEEE802.15.4.

Coexistence Mechanism between IEEE 802.15.4 and IEEE 802.11 : ACROS (IEEE 802.15.4 와 IEEE 802.11의 공존 방법 : ACROS)

  • Shin, S.Y.;Lee, J.W.;Kwon, W.H.;Shin, Y.H.;Kim, Y.H.;Kim, J.J.;Kim, Yu-Shin
    • 한국정보통신설비학회:학술대회논문집
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    • 2005.08a
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    • pp.74-84
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    • 2005
  • In this paper, a new coexistence mechanism between IEEE 802.15.4 and IEEE 802.11, ACROS (Active Channel Reservation for coexistence), is proposed. The key idea of ACROS is to reserve the channel for IEEE 802.15.4 transmission. During the reservation, IEEE 802.11 transmissions cannot be occurred. Request-to-send/clear-to-send mechanism of IEEE 802.11 is used to reserve channel. The proposed ACROS mechanism is implemented into PC based prototype. By the experiments, the $e{\pm}ciency$ of ACROS is proved.

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Performance Evaluation of Wireless Networked Control System Based on IEEE 802.15.4e With Redundancy (중복 전송을 고려한 IEEE 802.15.4e기반 무선 네트워크 제어 시스템 성능 평가)

  • Yen, Bui Xuan;Lee, Wonhee;Kim, Youngsuk;Yoo, Myungsik
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.38B no.7
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    • pp.572-580
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    • 2013
  • IEEE 802.15.4e is a prospective standard for low latency control application in industries. This paper proposes a framework to evaluate the closed loop IEEE 802.15.4e based WNCS performance. The framework consists of two models: closed loop control system model and network model. The network model focuses on the PHY parameters of wireless link and takes the channel parameters into consideration. The PHY model combining with MAC model gives the control system model the probability of packet loss in a super-frame. In addition, redundancy mechanism is considered in IEEE 802.15.4e to reduce to data frame loss probability. The simulation is implemented in Matlab, PHY model takes the channel parameters from empirical results. Hence our evaluation gives insight into behavior of WNCS in different environments and it provides us a tool to design wireless network to achieve a good performance for control system.

An Analytical Model for GTS Service Delay of IEEE 802.15.4 with Two Priority Queues (두 개의 우선순위 큐를 적용한 IEEE 802.15.4 GTS 서비스 지연에 대한 분석적 모델)

  • Lee, Kang-Woo;Shin, Youn-Soon;Ahn, Jong-Suk
    • The KIPS Transactions:PartC
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    • v.15C no.5
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    • pp.419-428
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    • 2008
  • IEEE 802.15.4 reserves transmission time to support real-time transport by sending GTS request packets to the PAN coordinator in advance. This paper introduces GTS-FAT technique to reduce the reservation time by giving a higher sending priority to GTS request packets than data packets. Differently from the conventional scheme where these two kinds of packets share a single transmission queue, GTS-FAT scheme allocates two queues with two different contention window sizes like IEEE 802.11e. This paper also proposes an analytical GTS delay model by combining the two legacy models for 802.15.4 and 802.11e to accurately predict the GTS-FAT delay over a given network topology. Our analysis shows that GTS-FAT reduces GTS service delay by up to 50% at the expense of the data delay by only up to 6.1% when GTS request packets four times outnumber data packets.

IEEE 802.15.4a IR-UWB System Design for Indoor Ranging and Communications (실내 무선측위/통신을 위한 IEEE 802.15.4a IR-UWB 시스템 설계)

  • Oh, Mi-Kyung;Park, Joo-Ho;Oh, Jung-Yeol;Kil, Min-Su;Kim, Jae-Young
    • IEMEK Journal of Embedded Systems and Applications
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    • v.4 no.1
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    • pp.16-22
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    • 2009
  • This paper aims at designing an impulse-radio ultra-wideband (IR-UWB) transceiver, especially targeting the IEEE 802.15.4a indoor ranging and communication systems. We first investigate the IEEE 802.15.4a IR-UWB signals and suggest the full-digital transceiver architecture accordingly. Since the wireless systems equipped with the impulse signal have the property of low-duty cycle, i.e., discontinuity in time, while the conventional systems takes the continuous signals, it is required to reconfigure the system design, including link budget. Following brief introduction to our IEEE 802.15.4a IR-UWB system hardware, we finally examine the ranging performance in indoor environments to verify our system design.

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A Study on Performance Analysis of IEEE 802.15.4b Noncoherent Receivers at 915MHz under Pulse Jamming (Pulse Jamming 환경 하에서 IEEE 802.15.4b 915MHz 비동기식 수신기 성능 분석에 대한 연구)

  • Lee, Sung-Yong;Cheong, Cha-Keon
    • Proceedings of the IEEK Conference
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    • 2009.05a
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    • pp.296-298
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    • 2009
  • In this paper, we are performance analysis of IEEE 802.15.4b LR-WAPN(Low-Rate Wireless Personal Area Network; Zigbee) system noncoherent receivers at 915MHz under Jamming. IEEE 802.15.4b concerns itself with devices at 915MHz, which employ a higher data rate of up to 250 kbps, and which use O-QPSK(Offset Quradrature Phase Shift Keying modulation with DSSS(Direct Sequence Spread Spectrum). Communication between devices can still be hampered by the presence of interferers outside the network, whether the interference be intentional or not. Hence the receivers can not have stable receiving condition due to worse BER. To solve this problem, we present a mere stabilized receiver system of using noncoherent detection. In this paper, we look instead at the effect of jamming, i.e. intentional interference, on the BER performance of IEEE 802.15.4 devices.

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Exploring the Feasibility of Differentiating IEEE 802.15.4 Networks to Support Health-Care Systems

  • Shin, Youn-Soon;Lee, Kang-Woo;Ahn, Jong-Suk
    • Journal of Communications and Networks
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    • v.13 no.2
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    • pp.132-141
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    • 2011
  • IEEE 802.15.4 networks are a feasible platform candidate for connecting all health-care-related equipment dispersed across a hospital room to collect critical time-sensitive data about patient health state, such as the heart rate and blood pressure. To meet the quality of service requirements of health-care systems, this paper proposes a multi-priority queue system that differentiates between various types of frames. The effect of the proposed system on the average delay and throughput is explored herein. By employing different contention window parameters, as in IEEE 802.11e, this multi-queue system prioritizes frames on the basis of priority classes. Performance under both saturated and unsaturated traffic conditions was evaluated using a novel analytical model that comprehensively integrates two legacy models for 802.15.4 and 802.11e. To improve the accuracy, our model also accommodates the transmission retries and deferment algorithms that significantly affect the performance of IEEE 802.15.4. The multi-queue scheme is predicted to separate the average delay and throughput of two different classes by up to 48.4% and 46%, respectively, without wasting bandwidth. These outcomes imply that the multi-queue system should be employed in health-care systems for prompt allocation of synchronous channels and faster delivery of urgent information. The simulation results validate these model's predictions with a maximum deviation of 7.6%.