In-Vehicle Power Line Communication: Differences and Similarities Among the In-Car and the In-Ship Scenarios

Pittolo, Alberto; Piante, Marco De; Versolatto, Fabio; Tonello, Andrea M.

doi:10.1109/mvt.2015.2480098

Cited by 38 publications

(16 citation statements)

References 14 publications

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“…[86], the authors designed a T-shaped coupling circuit for broadband PLC, whose frequencies range between 1.8 MHz-30 MHz. For other PLC applications, such as VPLCs, narrowband transmission systems cannot provide reliable connectivity due to prominent and severe noise interference [38,87]. In Refs.…”

Section: Based On Bandwidthmentioning

confidence: 99%

“…The channel characteristics of VPLNs (Vehicular Power Line Networks) were investigated in [38,87,92,93], where the access impedance was measured under narrowband (0-500 kHz) and broadband (1-100 MHz) conditions for different vehicles. The access impedance of VPLNs (Vehicular power line networks) are complex-valued quantities that vary with location and time [33,34].…”

Section: Based On Impedance Typesmentioning

confidence: 99%

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A Review of Impedance Matching Techniques in Power Line Communications

Wang

Cao

2019

Electronics

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Impedance mismatch that degrades signal power transfer and affects communication reliability is a major obstacle for power line communications (PLC). Impedance matching techniques can be designed to effectively compensate for the impedance mismatch between PLC modems and power line networks at a specific frequency or for a given frequency band. In this paper, we discuss the tradeoffs that need to be made when designing an effective impedance matching network. We also make a comprehensive review of previous state-of-the-art PLC impedance matching techniques and provide a useful classification of each technique. Finally, we discuss important issues (concerns) and provide suggestions for research directions deserving more attention. This review provides a useful guideline for researchers and manufacturers to quickly understand impedance matching principles and facilitate the design of an effective impedance matching coupler for PLC applications.

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Section: Based On Bandwidthmentioning

confidence: 99%

Section: Based On Impedance Typesmentioning

confidence: 99%

A Review of Impedance Matching Techniques in Power Line Communications

Wang

Cao

2019

Electronics

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“…Additionally, Gartner Research has forecast that the number of digital devices connected within all worldwide networks will amount to over 26 million units by 2020, rising to 100 billion during the next few years. In addition, Strategy Analytics has predicted that the global IT service providers who provide their services to smart homes will enjoy an average annual growth rate of approximately 24.2%, which will boost the market size from $24 billion in 2015 to $71 billion by 2020 [18]. Meanwhile, Transparency Market Research, a market investigation organization in Albany, New York, has estimated that the market for home automation will grow from roughly $5.3 billion in 2014 to $21.6 in 2020, i.e., an annual average growth rate of 26.3% [19].…”

Section: Trend Of Communication In Smart Home Architecturementioning

confidence: 99%

Design of a Shipboard Outside Communication Network and Its Testbed Using PLC: For Safety Management during the Ship Building Process

Koh

Seo

2018

Processes

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Abstract:For the shipbuilding industry worldwide, work-related accidents at the construction site have been a major concern. Workers at the shipyards are consistently exposed to dangerous environments and their intensity of work is quite high. Considering the complexity of the shipbuilding process, efficient communications between workers are essential in the workplace, but current communication methods, which mostly use wireless technologies, are sometimes limited by the structural blocks, creating shadow areas where the radio bands cannot reach. As a countermeasure, SUNCOM Co., Ltd in the Republic of Korea has developed the PLC-based communication system followed by establishing a test-bed facility in cooperation with SK Telecom Co., Ltd and the Hyundai Heavy Industries Co., Ltd. This system and applied technologies are expected to reduce accidents in the field and be applied for other industries having the same problem, providing an uninterrupted communication environment and safer working conditions. The solution adopted this time can provide mobile communication services inside the ship during shipbuilding, thereby enabling rapid processing of work reports and instructions and fast responses to disaster occurrence, contributing to improvements in work efficiency in shipbuilding yards and ensuring workers' safety.

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“…Proof : According to (18), ρ h i is the summation of higher priority transmission rates. Hence, it is straightforward to observe that with a smaller value of ρ h i , ρ i can be increased.…”

Section: Collision-free and Bandwidth Efficient Transmission Basedmentioning

confidence: 99%

Delay Analysis and Time-Critical Protocol Design for In-Vehicle Power Line Communication Systems

Sheng

Leung

Bansal

2018

IEEE Trans. Veh. Technol.

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In-Vehicle Power Line Communication: Differences and Similarities Among the In-Car and the In-Ship Scenarios

Cited by 38 publications

References 14 publications

A Review of Impedance Matching Techniques in Power Line Communications

A Review of Impedance Matching Techniques in Power Line Communications

Design of a Shipboard Outside Communication Network and Its Testbed Using PLC: For Safety Management during the Ship Building Process

Delay Analysis and Time-Critical Protocol Design for In-Vehicle Power Line Communication Systems

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