Wireless Transmission of Sensor Data over UWB in Spacecraft Payload Networks

Ratiu, Ovidiu; Panagiotopoulos, N.; Vos, Stefan; Puşchiţă, Emanuel

doi:10.1109/wisee.2018.8637336

Cited by 9 publications

(10 citation statements)

References 6 publications

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“…UWB connectivity has also been considered within the transportation industry for extreme environments. For instance, in [83], a UWB-based solution to transmit sensor data wirelessly within a spacecraft has been proposed. A similar approach to transmitting sensor data within aircraft is available in [84], [85].…”

Section: A Reliable Uwb Communication and Positioning In The Iiotmentioning

confidence: 99%

Applications of UWB Networks and Positioning to Autonomous Robots and Industrial Systems

Queralta

et al. 2021

2021 10th Mediterranean Conference on Embedded Computing (MECO)

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Ultra-wideband (UWB) technology is a mature technology that contested other wireless technologies in the advent of the IoT but did not achieve the same levels of widespread adoption. In recent years, however, with its potential as a wireless ranging and localization solution, it has regained momentum. Within the robotics field, UWB positioning systems are being increasingly adopted for localizing autonomous ground or aerial robots. In the Industrial IoT (IIoT) domain, its potential for ad-hoc networking and simultaneous positioning is also being explored. This survey overviews the state-of-the-art in UWB networking and localization for robotic and autonomous systems. We also cover novel techniques focusing on more scalable systems, collaborative approaches to localization, ad-hoc networking, and solutions involving machine learning to improve accuracy. This is, to the best of our knowledge, the first survey to put together the robotics and IIoT perspectives and to emphasize novel ranging and positioning modalities. We complete the survey with a discussion on current trends and open research problems.

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Section: A Reliable Uwb Communication and Positioning In The Iiotmentioning

confidence: 99%

Applications of UWB Networks and Positioning to Autonomous Robots and Industrial Systems

Queralta

et al. 2021

2021 10th Mediterranean Conference on Embedded Computing (MECO)

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“…Ultra-wideband for space applications is also mentioned in [91], where ISA100 Wireless over an ultra-wideband radio channel is used for implementing and validating a network of intra-satellite wireless sensing units. The validation was conducted on a testbed which includes camera sensors as well as a wireless gateway, and the performance results highlight the suitability of the interplay of ISA100 Wireless and ultrawideband for achieving robust wireless communication in a spacecraft environment.…”

Section: Networked Aerospace Applicationsmentioning

confidence: 99%

A Survey on Industrial Internet With ISA100 Wireless

2020

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We present a detailed survey of the literature on the ISA100 Wireless industrial Internet standard (also known as ISA100.11a or IEC 62734). ISA100 Wireless is the IEEE 802.15.4-compatible wireless networking standard "Wireless Systems for Industrial Automation: Process Control and Related Applications". It features technologies such as 6LoWPAN, which renders it ideal for industrial Internet edge applications. The survey focuses on the state of the art research results in the frame of ISA100 Wireless from a holistic point of view, including aspects like communication optimization, routing mechanisms, realtime control, energy management and security. Additionally, we present a set of reference works on the related deployments around the globe (experimental testbeds and real-terrain installations), as well as of the comparison to and coexistence with another highly relevant industrial standard, WirelessHART. We conclude by discussing a set of open research challenges.

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“…Similarly, limited research to convert a wire-connected system into a wireless-sensor-connected system for spacecraft automation, airplane structural heath monitoring system and a wireless elderly health monitoring system has previously been proposed. To design spacecraft automation and communication, wireless transmission of sensor data over UWB in spacecraft payload networks is analyzed in [27] and in these networks, the sensor packets with 988 B payload data are transferred over different frequency bands in an ultra-wideband frequency using a TDMA protocol having a short 5 ms time slot. A wireless-sensornetwork-based structural health monitoring system for an airplane is studied in [28] and in this system, a few sensor nodes monitoring the health status of an airplane are deployed throughout the aircraft.…”

Section: B Related Workmentioning

confidence: 99%

“…Current research works regarding the wireless sensor-based system explained in [27]- [30]. Among the research works [27], demanded higher latency for packet transmission as a 5 ms transmission slot and not determined the reliability defined by URLLC. The research work presented in [28], latency is comparatively higher as 115 ms and reliability not defined by the system.…”

Section: Contributionsmentioning

confidence: 99%

Multiband Massive Channel Random Access in Ultra-Reliable Low-Latency Communication

et al. 2020

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Ultra-Reliable Low-Latency Communication (URLLC) is challenging due to its extremely higher reliability requirement with stringent short latency packet transmission. In order to overcome this reliability and latency bound, a communication access scheme needs to assure almost error-free and high speed packet transmission. In this paper, a new multiple-access scheme-Orthogonal Frequency-Subcarrier-based Multiple Access (OFSMA)-is proposed with URLLC's high requirement adaptation. In this scheme, the packet diversity concept is incorporated to achieve the expected packet transmission reliability and a diverse number of the duplicated packet are processed with a set of operations and transmitted over randomly selected orthogonal subcarrier frequency channels. Performances of the OFSMA system are measured in terms of applying several numbers of frequency bands, a massive number of subcarrier channels, a different number of packet duplications, and a diverse rate of traffic arrival conditions. We determined the minimum number of subcarrier channels requirement to satisfy the reliability of 99.999% for different packet duplication in presence of different frequency bands. The reliability response for a fixed number of subcarrier channels is evaluated for different frequency band conditions. Finally, the air interface latency of the OFSMA system is measured for single packet uplink transmission and compared with that of a traditional OFDMA system. The performance results in terms of reliability and latency express that the OFSMA scheme can assure the expected reliability and latency defined by URLLC.

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Wireless Transmission of Sensor Data over UWB in Spacecraft Payload Networks

Cited by 9 publications

References 6 publications

Applications of UWB Networks and Positioning to Autonomous Robots and Industrial Systems

Applications of UWB Networks and Positioning to Autonomous Robots and Industrial Systems

A Survey on Industrial Internet With ISA100 Wireless

Multiband Massive Channel Random Access in Ultra-Reliable Low-Latency Communication

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