Low-Complexity Scalable Iterative Algorithms for IEEE 802.11p Receivers

Goubet, Olivier; Baudic, Gwilherm; Gabry, Frédéric; Oechtering, Tobias J.

doi:10.1109/tvt.2014.2366155

Cited by 9 publications

(9 citation statements)

References 34 publications

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“…IEEE 802.11p is one of the commonly used standards for V2I and V2V to support communications in highly mobile, often densely populated, and frequently non-line-of-sight environments [7,8]. In addition, the IEEE 802.15.4 standard, comprising a simple physical (PHY) layer and energy efficient medium access control layer, is also designed to support both real-time and contention-based services and has been considered as a promising candidate for Internet of vehicles (IoV) and vehicular sensor networks [9].…”

Section: Introductionmentioning

confidence: 99%

Adaptive cooperative communications for enhancing QoS in vehicular networks

Osman

Peng

Omar

2019

Physical Communication

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In a vehicular network with high mobility, it is challenging to ensure reliable and efficient connections among vehicles and between vehicles and roadside communication units (or infrastructure) such as base stations or WiFi hot spots. In this paper, we propose a method that utilizes cooperative communications for a combined vehicle-to-infrastructure (V2I) with vehicle-to-vehicle (V2V) approach to improving quality of service (QoS) across the vehicular network. In this approach, we have obtained the closedform expressions of key QoS performances such as outage probability, throughput, energy efficiency, packet delivery ratio, packet loss rate and average end-to-end-delay for different investigated transmission schemes. These performances can be optimized by adaptively selecting appropriate transmission schemes and, as a results, good trade-offs between system reliability and efficiency can also be achieved under various environmental conditions.

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Section: Introductionmentioning

confidence: 99%

Adaptive cooperative communications for enhancing QoS in vehicular networks

Osman

Peng

Omar

2019

Physical Communication

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“…The multiple served and idle users coexisting network is depicted in Figure . The depiction in Figure may be an abstraction from the vehicle‐to‐vehicle, vehicle‐to‐infrastructure, machine‐to‐machine, device‐to‐device, mobile social network, cloud radio access network, or homogeneous/heterogeneous network, and the node that provides services may represent a macro/micro base station, a relay, a terminal, or a centralized cloud service center . Moreover, each authorized user has two access statuses, that is, being served and idle, and each status may be switched into another one in each transmission time interval (TTI).…”

Section: System Modelmentioning

confidence: 99%

“…As we already know, with the ever‐increasing types of users and users' demands, diverse networks should appear in the next‐generation systems, such as LTE‐A and 5G . These networks may include the vehicle‐to‐vehicle network, vehicle‐to‐infrastructure network, machine‐to‐machine network, device‐to‐device network, mobile social network, self‐organization (e.g., ad hoc) network, sensor network, cloud radio access network, and macro/micro homogeneous or heterogeneous network . Further, there may be multiple users being served (through base station, relay, terminal, etc.)…”

Section: Introductionmentioning

confidence: 99%

Active jamming for multi-user information security improvement with the access statuses of users

Ren

et al. 2016

Security Comm. Networks

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We propose a novel physical layer scheme for improving multiple users' information security (e.g., vehicle devises and mobile terminals) in the next‐generation communication systems. Owing to the limitation of service node's antennas, not all users can be concurrently served. Therefore, the node only provides services for some chosen users in a certain time. On the basis of this premise, in our scheme, the access status of each user is involved. With the information of access status, the node devises transmitters to increase the served users' transmission rates and decrease the possibility of each idle user's signal interception. Furthermore, the node executes active jamming according to the realistic situation of this multi‐user network for confusing the idle users/potential eavesdroppers. In addition, with the gradually mature applications of full‐duplex techniques for the terminals, each user can also implement active jamming in the full‐duplex mode to interfere with the potential eavesdroppers. It is seen that our scheme is linear without iteration, and performance analysis and simulation results illustrate that it is feasible for multi‐user security enhancement. Copyright © 2016 John Wiley & Sons, Ltd.

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“…In [11], a receiver with iterative channel estimation making use of discrete prolate spheroidal sequences is proposed, and the receiver achieves FER performance close to the case with perfect CSI. A soft iterative receiver that uses factor graphs for performing joint channel estimation and detection is investigated in [12]. The receiver shows a significant FER performance improvement in comparison to the noniterative receivers.…”

Section: Introductionmentioning

confidence: 99%

“…The receiver shows a significant FER performance improvement in comparison to the noniterative receivers. It is also reported in both [11] and [12] that the insertion of a postamble enables reduction of the number of iterations required to attain a fixed performance. The iterative schemes discussed above suggest that it is possible to perform robust channel estimation using the existing pilot pattern at the cost of increased receiver complexity.…”

Section: Introductionmentioning

confidence: 99%

An 802.11p Cross-Layered Pilot Scheme for Time- and Frequency-Varying Channels and Its Hardware Implementation

Nagalapur

Brännström

Ström

et al. 2016

IEEE Trans. Veh. Technol.

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IEEE Transactions on Vehicular Technology (ISSN: 0018-9545)Citation for the published paper: Nagalapur, K. ; Brännström, F. ; Ström, E. et al. (2016) "An 802.11p Cross-Layered Pilot Scheme for Time-and Frequency-Varying Channels and Its Hardware Implementation".Abstract-Robust channel estimation in IEEE 802.11p systems in highly time-and frequency-varying vehicular channels in combination with long data packets is a challenging task due to the ill-suited pilot pattern. Solutions of increased receiver complexity that use decision feedback and iterative decoding have been proposed to overcome the difficulty in robust channel estimation. In this work, a cross-layered method to introduce complementary training symbols into an 802.11p frame is proposed. In the proposed approach, known bits are multiplexed with the data in higher layers and a modified receiver can utilize these bits as training data for improved channel estimation. A standard receiver treats these bits as data and passes them to the higher layers where they can be removed, making the method compatible with the standard 802.11p transceivers. A software/firmware update of the higher layers is needed in a standard receiver to remove the multiplexed bits. A modified receiver with low complexity channel estimation schemes that utilizes the complementary training symbols is implemented in a field programmable gate array platform. Frame error rate measurements have been performed by interfacing the hardware implementation with a channel emulator. The measurement results follow the computer simulation results validating the hardware implementation. Moreover, measurement results show that the modified receiver follows the performance of an ideal receiver that has full knowledge of the channel (with only an offset in signal-to-noise ratio) and significantly outperforms the commercial 802.11p transceiver we tested.

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Low-Complexity Scalable Iterative Algorithms for IEEE 802.11p Receivers

Cited by 9 publications

References 34 publications

Adaptive cooperative communications for enhancing QoS in vehicular networks

Adaptive cooperative communications for enhancing QoS in vehicular networks

Active jamming for multi-user information security improvement with the access statuses of users

An 802.11p Cross-Layered Pilot Scheme for Time- and Frequency-Varying Channels and Its Hardware Implementation

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