|Intelligent Drive Assistant Systems|
|P. Hithesh, Gopisetty Neehar Sai, CH. Srinuvasulu, Balasbramani, Poovanan|
|Cite This Article:|
Intelligent Drive Assistant Systems, International Journal of Innovative Research in Technology(www.ijirt.org) ,ISSN: 2349-6002 ,Volume 5 ,Issue 10 ,Page(s):354-358 ,March 2019 ,Available :IJIRT147757_PAPER.pdf
|Braking, Arduino &sensor etc|
|Most of the academic research on driving support systems focuses on automating the actual driving rather than assisting the driver by enhancing its awareness of the carís surroundings. None of such automated driving systems are currently available to the public. On the other hand, several types of practical driving-aid devices have been developed and made available on the market. Blind-spot detectors, lane change assistants, and back-up/parking sensors are a few examples. The current technology in driver support systems is diverse in terms of functionality, methodology and implementation. The common denominator of all those systems is obstacle detection by sensing: to this end they utilize various forms of sensors, such as laser light, ultrasonic, radar, infrared, and CCD cameras, which are very expensive techniques. Reckless driving is another major moving traffic violation. It is usually a more serious offense than careless driving, improper driving, or driving without due care and attention and is often punishable by fines, imprisonment, and/or driver's license suspension or revocation. Reckless driving is often defined as a mental state in which the driver displays a wanton disregard for the rules of the road; the driver often misjudges common driving procedures, often causing accidents and other damages.|
|Unique Paper ID: 147757|
Publication Volume & Issue: Volume 5, Issue 10
Page(s): 354 - 358
|Article Preview & Download|
Analysis of Low Speed Aerodynamics of Double Delta...
Paper ID : IJIRT148816
Energy and Spectral Efficiency of Cellular Network...
Paper ID : IJIRT148815
MULTI-ANTENNA WIRELESS LEGITIMATE SURVEILLANCE SYS...
Paper ID : IJIRT148814
DESIGN OF PILOT SEQUENCE BASED PREAMBLE FOR FBMC F...
Paper ID : IJIRT148811
DESIGN OF LOW-COMPLEXITY BLIND CFO ESTIMATION FOR ...
Paper ID : IJIRT148810