안녕하세요 SW 마에스트로 블로그 이웃! 최근 숏폼 콘텐츠로 외국에 무인택시가 운영되는 것을 봤는데요! 앞으로도 점점 확대될 예정이며, 다양한 대기업에서도 연구중인 자율주행차! 안녕하세요。 SW 마에스트로 블로그 이웃! 최근 숏폼 콘텐츠로 외국에 무인택시가 운영되는 것을 봤는데요! 앞으로도 점점 확대될 예정이며, 다양한 대기업에서도 연구중인 자율주행차!
자율주행차란 무엇인지, 어떤 기술이 사용되고 있는지 간단히 설명해 보겠습니다. 자율주행차의 현재와 기술이 궁금하다면 바로 만나러 갑시다~! 자율주행차란 무엇인지, 어떤 기술이 사용되고 있는지 간단히 설명해 보겠습니다. 자율주행차의 현재와 기술이 궁금하다면 바로 만나러 갑시다~!
자율주행자동차(Autonomous Vehicle)는 운전자의 개입 없이 스스로 주행할 수 있는 차량입니다. 주행경로 탐색, 장애물 인식, 속도 조절 등 다양한 기능을 수행할 수 있습니다! 인공지능, 센서, 통신기술 등의 첨단기술이 융합되어 발전하고 있습니다! 자율주행자동차(Autonomous Vehicle)는 운전자의 개입 없이 스스로 주행할 수 있는 차량입니다. 주행경로 탐색, 장애물 인식, 속도 조절 등 다양한 기능을 수행할 수 있습니다! 인공지능, 센서, 통신기술 등의 첨단기술이 융합되어 발전하고 있습니다!
자율주행차는 갈수록 열기가 더해지고 테슬라, 구글, 메르세데스-벤츠 등 많은 대기업들이 연구에 집중하고 있는데요! 자율주행차는 갈수록 열기가 더해지고 테슬라, 구글, 메르세데스-벤츠 등 많은 대기업들이 연구에 집중하고 있는데요!
테슬라의 경우 오토파일럿(자율주행) 기능을 직접 개발해 연구에 집중하고 있으며 로보택시에 대한 발표를 앞두고 있습니다. 구글은 자사의 무인 자율주행 택시인 ‘웨이모’에서 안전 자율주행 택시 서비스를 테스트 중입니다. 메르세데스-벤츠의 경우 미국에서 첫 ‘레벨 3 자율주행차’를 판매하게 됐습니다! 레벨3 자율주행 기능은 특정 장소나 시간대, 속도 등 특정 조건이 갖춰지면 운전자가 운행 중 도로에 주의를 기울일 필요가 없는 기술입니다! 테슬라의 경우 오토파일럿(자율주행) 기능을 직접 개발해 연구에 집중하고 있으며 로보택시에 대한 발표를 앞두고 있습니다. 구글은 자사의 무인 자율주행 택시인 ‘웨이모’에서 안전 자율주행 택시 서비스를 테스트 중입니다. 메르세데스-벤츠의 경우 미국에서 첫 ‘레벨 3 자율주행차’를 판매하게 됐습니다! 레벨3 자율주행 기능은 특정 장소나 시간대, 속도 등 특정 조건이 갖춰지면 운전자가 운행 중 도로에 주의를 기울일 필요가 없는 기술입니다!
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Let’s take a look at what kind of technology is used for each role. 🙂 Let’s also look at what techniques are used for each role.:)
Self-driving cars recognize the driving environment with sensors such as LiDAR, radar, and cameras! LiDAR (Rider) is a sensor technology that uses lasers to scan surrounding objects in 3D. It uses a laser beam with strong linearity to accurately recognize surrounding objects with high density with very short interval signals! Self-driving cars recognize the driving environment with sensors such as LiDAR, radar, and cameras! LiDAR (Rider) is a sensor technology that uses lasers to scan surrounding objects in 3D. It uses a laser beam with strong linearity to accurately recognize surrounding objects with high density with very short interval signals!
RADAR (radar) is a device that fires electromagnetic waves at an object, measures reflected waves, and measures the distance and shape to the object! It uses a variety of sensors to recognize the driving environment and help you drive safely and automatically! RADAR (radar) is a device that fires electromagnetic waves at an object, measures reflected waves, and measures the distance and shape to the object! It uses a variety of sensors to recognize the driving environment and help you drive safely and automatically!
If we recognize the driving environment, we should make a driving strategy and make a driving judgment according to the situation, right? Self-driving cars analyze data collected through artificial intelligence and establish driving strategies! Using deep learning algorithms and big data, we learn and model to make optimal decisions even in complex driving situations. It also records the travel speed and route to enable safer travel! If we recognize the driving environment, we should make a driving strategy and make a driving judgment according to the situation, right? Self-driving cars analyze data collected through artificial intelligence and establish driving strategies! Using deep learning algorithms and big data, we learn and model to make optimal decisions even in complex driving situations. It also records the travel speed and route to enable safer travel!
Finally, once the driving decision is completed, the software of the self-driving car will also control the vehicle directly. This technology is called ADAS (Advanced Driving Support System)! Finally, once the driving decision is completed, the software of the self-driving car will also control the vehicle directly. This technology is called ADAS (Advanced Driving Support System)!
ADAS technology includes driver health monitoring, blind spot monitoring, parking space recognition and automatic parking, and night object recognition. You can receive data for vehicle control through various application technologies such as image recognition, ultrasonic sensors, and infrared cameras, and control the vehicle accurately and safely through ADAS technology! ADAS technology includes driver health monitoring, blind spot monitoring, parking space recognition and automatic parking, and night object recognition. You can receive data for vehicle control through various application technologies such as image recognition, ultrasonic sensors, and infrared cameras, and control the vehicle accurately and safely through ADAS technology!
Self-driving cars are attracting more and more attention as a means of transportation in the future! As self-driving technology is rapidly developing due to the research of large companies and the fusion of advanced technology, I hope that blog neighbors will be interested in and watch the development of self-driving technology! 🙂 Self-driving cars are attracting more and more attention as a means of transportation in the future! As self-driving technology is rapidly developing due to the research of large companies and the fusion of advanced technologies, I hope the blog neighbors will be interested in the development of self-driving technology! 🙂
If today’s post helps, please share your sympathy and comments! If today’s post helps, please share your sympathy and comments!