Safety Monitoring System of CAVs Considering the Trade-Off between Sampling Interval and Data Reliability

Tak, Sehyun; Choi, Seongjin

doi:10.3390/s22103611

Cited by 5 publications

(5 citation statements)

References 53 publications

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“…The results of the implementation experiment indicates that if the acceptable feedback time of a system is significantly larger than a few hundred ms, e.g., industrial sensor systems [31], AS-FT-2 can be used without problems. On the other hand, there may be some applications where such sufficiently large feedback time is not acceptable, e.g., cooperative intelligent transportation systems [16]. In anticipation of such applications, we also proposed an ASIT scheme AS-SW-1 that does not require a feedback.…”

Section: Discussionmentioning

confidence: 99%

“…However, these schemes cannot be used if applications require faster feedback time. For instance, the average requirement for the transmission interval is considered to be 5 seconds to an hour [15], whereas in some real-time communication systems, the data transmission interval for cooperative intelligent transportation systems is considered to be 200 ms [16]. The existing scheme would not be suitable for the latter case.…”

Section: Our Contributionmentioning

confidence: 99%

“…On the other hand, in some real-time communication systems, according to [16], to guarantee traffic safety under bandwidth constraints, the data transmission interval for a cooperative intelligent transportation system is considered to be 200 ms, which is to optimize the overall efficiency of a system in features of safety indicators. From these requirements and Table 1, the feedback waiting time of AS-FT-2 is too long.…”

Section: Acceptable Feedback Waiting Timementioning

confidence: 99%

“…In some real-time communication systems, e.g., cooperative intelligent transportation systems, some high bandwidth communication protocols, such as LTE (23.6 Mbps), are used. In addition, to optimize the overall efficiency of a system in features of safety indicators, many devices send data in short interval, which is about 200 ms [16]. Therefore, AS-FT-2 cannot be used because of the feedback waiting time.…”

Section: Suitable Schemes For Applicationsmentioning

confidence: 99%

See 3 more Smart Citations

Constraints and Evaluations on Signature Transmission Interval for Aggregate Signatures with Interactive Tracing Functionality

ISHII,

YAMASHITA,

SONG

et al. 2024

IEICE Trans. Fundamentals

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Fault-tolerant aggregate signature (FT-AS) is a special type of aggregate signature that is equipped with the functionality for tracing signers who generated invalid signatures in the case an aggregate signature is detected as invalid. In existing FT-AS schemes (whose tracing functionality requires multi-rounds), a verifier needs to send a feedback to an aggregator for efficiently tracing the invalid signer(s). However, in practice, if this feedback is not responded to the aggregator in a sufficiently fast and timely manner, the tracing process will fail. Therefore, it is important to estimate whether this feedback can be responded and received in time on a real system. In this work, we measure the total processing time required for the feedback by implementing an existing FT-AS scheme, and evaluate whether the scheme works without problems in real systems. Our experimental results show that the time required for the feedback is 605.3 ms for a typical parameter setting, which indicates that if the acceptable feedback time is significantly larger than a few hundred ms, the existing FT-AS scheme would effectively work in such systems. However, there are situations where such feedback time is not acceptable, in which case the existing FT-AS scheme cannot be used. Therefore, we further propose a novel FT-AS scheme that does not require any feedback. We also implement our new scheme and show that a feedback in this scheme is completely eliminated but the size of its aggregate signature (affecting the communication cost from the aggregator to the verifier) is 144.9 times larger than that of the existing FT-AS scheme (with feedbacks) for a typical parameter setting, and thus has a trade-off between the feedback waiting time and the communication cost from the verifier to the aggregator with the existing FT-AS scheme.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Our Contributionmentioning

confidence: 99%

Section: Acceptable Feedback Waiting Timementioning

confidence: 99%

Section: Suitable Schemes For Applicationsmentioning

confidence: 99%

See 2 more Smart Citations

Constraints and Evaluations on Signature Transmission Interval for Aggregate Signatures with Interactive Tracing Functionality

ISHII,

YAMASHITA,

SONG

et al. 2024

IEICE Trans. Fundamentals

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show abstract

“…In contrast, C-ITS enables the real-time collection of various traffic information remotely through terminals and provides that information to other drivers, facilitating rapid and safe responses to sudden incidents [1,2]. By identifying potential hazards and preventing accidents in advance, C-ITS distinguishes itself from traditional ITS and is therefore an essential technology for creating a future autonomous driving environment [3][4][5][6]. In conventional ITS, the collection and provision of traffic information relies on specific locations where traffic information collection and dissemination devices were installed.…”

Section: C-its (Cooperative Intelligent Transportation Systemmentioning

confidence: 99%

Analyzing the Impact of C-ITS Services on Driving Behavior: A Case Study of the Daejeon–Sejong C-ITS Pilot Project in South Korea

Kang,

Tak,

Park

2023

Sustainability

Self Cite

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This paper analyzes the impact of C-ITS service on driving behavior, focusing on a pilot project in Daejeon–Sejong, South Korea. C-ITS, an advanced technology, enables bidirectional wireless communication between vehicles or infrastructure, allowing for real-time traffic data collection and dissemination. The study uses a unique analytical method, employing parallel processing techniques for variable extraction and a paired t-test to examine the short-term effects of C-ITS on driving behavior. Findings indicate a significant change in drivers’ behavior, particularly in average speed, hard braking rate, severe deceleration rate, speeding rate, and excessive speeding rate, towards safer trends after receiving C-ITS warning services. Reductions in hard braking and severe deceleration were immediate after C-ITS service initiation, while a decrease in excessive speeding was observed after four months. Further research is needed to identify other potential influencing variables and provide an unbiased evaluation of C-ITS effectiveness. The study’s implications highlight its role in promoting public acceptance of C-ITS-service-based cooperative autonomous driving strategies.

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Constraints and Evaluations on Signature Transmission Interval for Aggregate Signatures with Interactive Tracing Functionality

Ishii

Yamashita

Zhang

et al. 2022

Attacks and Defenses for the Internet-of-Things

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Safety Monitoring System of CAVs Considering the Trade-Off between Sampling Interval and Data Reliability

Cited by 5 publications

References 53 publications

Constraints and Evaluations on Signature Transmission Interval for Aggregate Signatures with Interactive Tracing Functionality

Constraints and Evaluations on Signature Transmission Interval for Aggregate Signatures with Interactive Tracing Functionality

Analyzing the Impact of C-ITS Services on Driving Behavior: A Case Study of the Daejeon–Sejong C-ITS Pilot Project in South Korea

Constraints and Evaluations on Signature Transmission Interval for Aggregate Signatures with Interactive Tracing Functionality

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