Pasi Pyykönen scite author profile

This article focuses on development baseline for a novel LIDAR for future autonomous cars, which require perception not only in clear weather, but also under harsh weather conditions such as fog and rain. Development of automotive laser scanners is bound to the following requirements: maximize sensor performance, assess the performance level and keep the scanner component costs reasonable (<1000 €) even if more expensive optical and electronic components are needed. The objective of this article is to review the existing automotive laser scanners and their capabilities to pave the way for developing new scanner prototypes, which are more capable in harsh weather conditions. Testing of scanner capabilities has been conducted in the northern part of the Finland, at Sodankylä Airport, where fog creates a special problem. The scanner has been installed in the airport area for data gathering and analyzes if fog, snow or rain are visible in the scanner data. The results indicate that these conditions degrade sensor performance by 25%, and therefore, future work in software module development should take this into account with in-vehicle system performance estimations concerning the visual range of the scanner. This allows the vehicle to adapt speed, braking distance and stability control systems accordingly

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Testing and Validation of Automotive Point-Cloud Sensors in Adverse Weather Conditions

Jokela

Kutila

Pyykönen

2019

Applied Sciences

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Light detection and ranging sensors (LiDARS) are the most promising devices for range sensing in automated cars and therefore, have been under intensive development for the last five years. Even though various types of resolutions and scanning principles have been proposed, adverse weather conditions are still challenging for optical sensing principles. This paper investigates proposed methods in the literature and adopts a common validation method to perform both indoor and outdoor tests to examine how fog and snow affect performances of different LiDARs. As suspected, the performance degraded with all tested sensors, but their behavior was not identical.

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Multi-camera-based smoke detection and traffic pollution analysis system

Pyykönen

Peussa

Kutila

et al. 2016

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Development and Piloting of Novel 5G-Enabled Road Safety Services

Ojanperä

Kutila

Pyykönen

et al. 2019

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Pasi Pyykönen

Automotive LiDAR performance verification in fog and rain

Automotive LIDAR sensor development scenarios for harsh weather conditions

Testing and Validation of Automotive Point-Cloud Sensors in Adverse Weather Conditions

Multi-camera-based smoke detection and traffic pollution analysis system

Development and Piloting of Novel 5G-Enabled Road Safety Services

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