Single Photon Lidar in Mobile Laser Scanning: The Sampling Rate Problem and Initial Solutions via Spatial Correlations

Lehtola, Ville V.; Hyyti, Heikki; Keränen, Pekka; Kostamovaara, J.

doi:10.5194/isprs-archives-xlii-2-w18-91-2019

Cited by 3 publications

(3 citation statements)

References 19 publications

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“…The followup efforts (e.g. [28]) may well lead to significant advances also for maritime detection, even if advances are not achieved within the more traditional pulsed-and continuouswave techniques.…”

Section: Radar and Lidarmentioning

confidence: 99%

Sensors and AI Techniques for Situational Awareness in Autonomous Ships: A Review

Thombre

Zhao

Ramm-Schmidt³

et al. 2022

IEEE Trans. Intell. Transport. Syst.

118

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Autonomous ships are expected to improve the level of safety and efficiency in future maritime navigation. Such vessels need perception for two purposes: to perform autonomous situational awareness and to monitor the integrity of the sensor system itself. In order to meet these needs, the perception system must fuse data from novel and traditional perception sensors using Artificial Intelligence (AI) techniques. This article overviews the recognized operational requirements that are imposed on regular and autonomous seafaring vessels, and then proceeds to consider suitable sensors and relevant AI techniques for an operational sensor system. The integration of four sensors families is considered: sensors for precise absolute positioning (Global Navigation Satellite System (GNSS) receivers and Inertial Measurement Unit (IMU)), visual sensors (monocular and stereo cameras), audio sensors (microphones), and sensors for remotesensing (RADAR and LiDAR). Additionally, sources of auxiliary data, such as Automatic Identification System (AIS) and external data archives are discussed. The perception tasks are related to well-defined problems, such as situational abnormality detection, vessel classification, and localization, that are solvable using AI techniques. Machine learning methods, such as deep learning and Gaussian processes, are identified to be especially relevant for these problems. The different sensors and AI techniques are characterized keeping in view the operational requirements, and some example state-of-the-art options are compared based on accuracy, complexity, required resources, compatibility and adaptability to maritime environment, and especially towards practical realization of autonomous systems.

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Section: Radar and Lidarmentioning

confidence: 99%

Sensors and AI Techniques for Situational Awareness in Autonomous Ships: A Review

Thombre

Zhao

Ramm-Schmidt³

et al. 2022

IEEE Trans. Intell. Transport. Syst.

118

View full text Add to dashboard Cite

show abstract

“…In the future, especially single photon lidars may become part of the low-cost sensor research and could change some of these cost-performance characteristics, see e.g. [Lehtola et al, 2019a]. determined based on the reflection intensity measurement and shown as percentage between 0 and the sensors maximum value.…”

Section: Lidarmentioning

confidence: 99%

Why It Makes Sense to Use High Cost Sensors to Do Low Cost Sensor Research

Lehtola

Hyyti

Malkamäki

2022

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. The question is highly topical in the world that is aiming to acclaim more efficiency through an omnipresence of sensors. The implication of the omnipresence of sensors clearly is that most of these sensors will be of the low-cost type. Hence, there is a call for research utilizing low-cost sensors. However, paradoxically, it often makes sense to use high-cost sensors to do this research. Here, we open up this apparent paradox and argue why high-cost sensors are not only greatly useful but also critically required in low-cost sensor research. We offer different examples that support this argument but discuss also limitations and cases where the argument does not hold.

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“…Single photon techniques are also interesting, since they require less energy to operate than traditional pulsed beams. Their cave-at is background illumination, mainly from sunlight, which may not manifest as overly restrictive in indoor environments (Lehtola et al 2019).…”

Section: Future Trendsmentioning

confidence: 99%