Lidar technology and it’s applications
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Transcript of Lidar technology and it’s applications
LIDAR TECHNOLOGY AND IT’S APPLICATIONSUNDER THE GUIDENCE OF
k.KAVITHA
ASST.PROF
ECE DEPARTMENT
ANURAG GROUP OF INSTITUTIONS
PRESENTED BY- CH.KARTHIK REDDY
13H61A04D5
CONTENTS REFERENCES INTRODUCTION REFERENCE PAPER-1 REFERENCE PAPER-2 ADVANTAGES AND DIS-ADVANTAGES APPLICATIONS CONCLUSION
REFERENCES PAPER-1
L. Leon and R. Hirata, “Vehicle detection using mixture of deformable parts models: Static and dynamic camera,” in Graphics, Patterns and Images (SIBGRAPI), 2012 25th SIBGRAPI Conference on, 2012, pp. 237–244.
PAPER-2 C. Nunny, A. Kummert, and S. Muller-Schneiders, "A novel region of interest
selection approach for traffic sign recognition based on 3d modelling," in IEEE Intelligent Vehicles Symposium, Eindhoven, The Netherlands, 2008, pp. 654-659 .
INTRODUCTION
Lidar (also called LIDAR, LiDAR, and LADAR) is a surveying method that measures distance to a target by illuminating that target with a laser light.
The name lidar ,sometimes considered as acronym of light Detection And Ranging or sometimes Light Imaging,Detection,And Ranging.
LIDAR uses ultraviolet,visible or infrared light to image objects and can be used with a wide range of targets,including non metallic objects,rain,chemical compounds.
Why lidar….?
It is used to generating and directly geo referenced spatial information.
Laser produces a coherent light source.
It is active sensor,do not require sunlight,they can be used either during the day or at day light.
Airborne Lidar systems use1064nm.
Traffic sign detection based on lidar reference paper-1
L. Leon and R. Hirata, “Vehicle detection using mixture of deformable parts models: Static and dynamic camera,” in Graphics, Patterns and Images (SIBGRAPI), 2012 25th SIBGRAPI Conference on, 2012, pp. 237–244.
R. Dominguez, E. Onieva, J. Alonso, J. Villagra, and C. Gonzalez, “Lidar based perception solution for autonomous vehicles,” in Intelligent Systems Design and Applications (ISDA), 2011 11th International Conference on, 2011, pp. 790–795.
Description Currently, intelligent vehicles are equipped with multiple sensors to perceive the
environment. Two common categories of them are camera and LIDAR.
Camera captures color, shape and appearance of the traffic sign. Substantial vision-based algorithms have been proposed to detect and recognize the traffic sign. However, this problem is still open and has many challenges.
LIDAR is capable of providing such information. But it cannot acquire the visual information of the traffic sign. Therefore, fusing the measurements of both sensors gives a highly promising direction for traffic sign detection and recognition in complex environments.
Forestry based on lidarReference paper-2
Direct measurements include:•Stand Density•Tree Height•Crown Width•Crown Length
Estimates include:•Volume•Biomass•Basal Area•DBH (diameter at breast height)
APPLICATION ON FORESTRY
Forestry applications require a precise inventory of individual trees and groups, or
"stands" of trees in order to address
Forest management and planning,
Study forest ecology and habitats,
Quantify forest fire fuel, and
Estimate carbon absorption.
Present Technical Advancement in LIDARPresent Technical Advancement in LIDAR
This car takes generated maps and combines them with high-resolution maps of the world, producing different types of data models that allow it to drive itself.
A LiDAR speed gun is a device used by the police for speed limit enforcement which uses LiDAR to detect the speed of a vehicle.
The ongoing Lunar Laser Ranging Experiment measures the distance between the Earth and the Moon using laser ranging. Lasers on Earth are aimed at retro reflectors planted on the Moon, and the time for the reflected light to return is determined.
applications Agriculture : Create a Topographical map of the fields and reveals the slopes and sun
exposure of the farm land. Archaeology. Autonomous vehicles: Autonomous vehicles use lidar for obstacle detection and
avoidance to navigate safely through environments. Biology and conservation. Geology and soil science: ICESat (Ice, Cloud, and land Elevation Satellite) Atmospheric Remote Sensing and Meteorology. Law enforcement: Lidar speed guns. Military. Physics and astronomy, Robotics and Spaceflight. Surveying, Transport , wind farm optimization and many more.
ADVANTAGES High accuracy
Fast acuisation and processing
Higher data density
Cost is less
Canopy penetration and stores additional data
CONCLUSIONIt has allowed data to be collected that was difficult or impossible to obtain prior
to its introduction.
Data collection and its processing is relatively fast
LIDAR saves clients money
LIDAR offers flexibility
LIDAR is unobtrusive and environmentally friendly