Integrity Verification Mechanism of Sensor Data Based on Bilinear Map Accumulator

The modern-day vehicle is evolved in a cyber-physical system with internal networks (controller area network (CAN), Ethernet, etc.) connecting hundreds of micro-controllers. From the traditional core vehicle functions, such as vehicle controls, infotainment, and power-train management, to the latest developments, such as advanced driver assistance systems (ADAS) and automated driving features, each one of them uses CAN as their communication network backbone. Automated driving and ADAS features rely on data transferred over the CAN network from multiple sensors mounted on the vehicle. Verifying the integrity of the sensor data is essential for the safety and security of occupants and the proper functionality of these applications. Though the CAN interface ensures reliable data transfer, it lacks basic security features, including message authentication, which makes it vulnerable to a wide array of attacks, including spoofing, replay, DoS, etc. Using traditional cryptography-based methods to verify the integrity of data transmitted over CAN interfaces is expected to increase the computational complexity, latency, and overall cost of the system. In this paper, we propose a light-weight alternative to verify the sensor data’s integrity for vehicle applications that use CAN networks for data transfers. To this end, a framework for 2-dimensional quantization index modulation (2D QIM)-based data hiding is proposed to achieve this goal. Using a typical radar sensor data transmission scenario in an autonomous vehicle application, we analyzed the performance of the proposed framework regarding detecting and localizing the sensor data tampering. The effects of embedding-induced distortion on the applications using the radar data were studied through a sensor fusion algorithm. It was observed that the proposed framework offers the much-needed data integrity verification without compromising on the quality of sensor fusion data and is implemented with low overall design complexity. This proposed framework can also be used on any physical network interface other than CAN, and it offers traceability to in-vehicle data beyond the scope of the in-vehicle applications.

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Auditory visualization of landmine detector sensor data

PsycEXTRA Dataset ◽

10.1037/e578522012-030 ◽

2009 ◽

Author(s):

Bradley M. Davis ◽

Woodrow W. Winchester ◽

Jason D. Zedlitz

Keyword(s):

Sensor Data

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Anomaly Detection in Sensor Data

Journal of Applied Reliability ◽

10.33162/jar.2018.03.18.1.20 ◽

2018 ◽

Vol 18 (1) ◽

pp. 20-32 ◽

Cited By ~ 2

Author(s):

Jong-Min Kim ◽

Jaiwook Baik

Keyword(s):

Anomaly Detection ◽

Sensor Data

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Study on Fault Diagnosis of Planetary Gearbox in Unmanned Aerial Vehicle Using Multi sensor Data

Journal of Applied Reliability ◽

10.33162/jar.2020.12.20.4.332 ◽

2020 ◽

Vol 20 (4) ◽

pp. 332-342

Author(s):

Hyung Jun Park ◽

Seong Hee Cho ◽

Kyung-Hwan Jang ◽

Jin-Woon Seol ◽

Byung-Gi Kwon ◽

...

Keyword(s):

Fault Diagnosis ◽

Unmanned Aerial Vehicle ◽

Sensor Data ◽

Planetary Gearbox ◽

Aerial Vehicle

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Survey of Integrity Verification in Cloud-Storage Using Various Techniques

International Journal of Innovative Research in Computer and Communication Engineering ◽

10.15680/ijircce.2015.0303029 ◽

2015 ◽

Vol 03 (03) ◽

pp. 1596-1598

Author(s):

Sheela.K, Sivasri.S

Keyword(s):

Cloud Storage ◽

Integrity Verification

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Compact CAD Models for the Signal Integrity Verification of Multi-Coupled Transmission Lines

IEICE Transactions on Fundamentals of Electronics Communications and Computer Sciences ◽

10.1587/transfun.e93.a.752 ◽

2010 ◽

Vol E93.A (4) ◽

pp. 752-760

Author(s):

Hyunsik KIM ◽

Yungseon EO

Keyword(s):

Transmission Lines ◽

Signal Integrity ◽

Integrity Verification ◽

Cad Models ◽

Coupled Transmission Lines

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A practical approach on non-regular sampling and universal demosaicing of raw image sensor data

London Imaging Meeting ◽

10.2352/issn.2694-118x.2020.lim-17 ◽

2020 ◽

Vol 2020 (1) ◽

pp. 91-95

Author(s):

Philipp Backes ◽

Jan Fröhlich

Keyword(s):

Image Quality ◽

Source Code ◽

Image Sensor ◽

Sensor Data ◽

Color Filter ◽

Lowpass Filter ◽

Sampling Errors ◽

Regular Sampling ◽

Single Sensor ◽

Similar Image Quality

Non-regular sampling is a well-known method to avoid aliasing in digital images. However, the vast majority of single sensor cameras use regular organized color filter arrays (CFAs), that require an optical-lowpass filter (OLPF) and sophisticated demosaicing algorithms to suppress sampling errors. In this paper a variety of non-regular sampling patterns are evaluated, and a new universal demosaicing algorithm based on the frequency selective reconstruction is presented. By simulating such sensors it is shown that images acquired with non-regular CFAs and no OLPF can lead to a similar image quality compared to their filtered and regular sampled counterparts. The MATLAB source code and results are available at: http://github. com/PhilippBackes/dFSR

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