This article presents a practical approach to engineering a robot to effectively navigate in an urban environment. Inherent in this approach is the use of relatively simple sensors, actuators, and processors to generate robot vision, intelligence, and planning. Sensor data are fused from multiple low-cost, two-dimensional laser scanners With an innovative rotational mount to provide three-dimensional coverage with image processing using both range and intensity data. Information is combined With Doppler radar returns to yield a world view processed by a context-based reasoning control system to yield tactical mission commands forwarded to traditional proportional-integral-derivative (PID) control loops. As an example of simplicity and robus...
In this paper we discuss Worcester Polytechnic Institute(WPI) and Carnegie Mellon University(CMU) te...
thesisThe DARPA Urban Challenge provided a purpose for autonomous ground vehicle research in recent...
We are building a mobile robot which will roam around the AI lab observing and later perhaps doing. ...
This article presents a practical approach to engineering a robot to effectively navigate in an urba...
This article presents a practical approach to engineering a robot to effectively navigate in an urba...
This article presents a practical approach to engineering a robot to effectively navigate in an urba...
The Urban Challenge represents a technological leap beyond the previous Grand Challenges. The challe...
To incorporate robots into society, they must be able to perform complex tasks while interacting wit...
While autonomous vehicles are growing in popularity, there exists a tradeoff between control and spe...
This dissertation documents the perception algorithm in Cornell University's 2005 DARPA Grand Challe...
In the world today, self-driving cars have proven to be a very interesting concept. The concept of ...
In Fall 2007, the US Defense Advanced Research Projects Agency (DARPA) held the Urban Challenge, a s...
This paper reports on various aspects of the Intelligent Vehicle Systems (IVS) team's involvement in...
The DARPA grand challenges were conducted between 2004 and 2007 and were initiated to foster researc...
The ability to detect, characterize, and avoid obstacles is a critical requirement for autonomous ro...
In this paper we discuss Worcester Polytechnic Institute(WPI) and Carnegie Mellon University(CMU) te...
thesisThe DARPA Urban Challenge provided a purpose for autonomous ground vehicle research in recent...
We are building a mobile robot which will roam around the AI lab observing and later perhaps doing. ...
This article presents a practical approach to engineering a robot to effectively navigate in an urba...
This article presents a practical approach to engineering a robot to effectively navigate in an urba...
This article presents a practical approach to engineering a robot to effectively navigate in an urba...
The Urban Challenge represents a technological leap beyond the previous Grand Challenges. The challe...
To incorporate robots into society, they must be able to perform complex tasks while interacting wit...
While autonomous vehicles are growing in popularity, there exists a tradeoff between control and spe...
This dissertation documents the perception algorithm in Cornell University's 2005 DARPA Grand Challe...
In the world today, self-driving cars have proven to be a very interesting concept. The concept of ...
In Fall 2007, the US Defense Advanced Research Projects Agency (DARPA) held the Urban Challenge, a s...
This paper reports on various aspects of the Intelligent Vehicle Systems (IVS) team's involvement in...
The DARPA grand challenges were conducted between 2004 and 2007 and were initiated to foster researc...
The ability to detect, characterize, and avoid obstacles is a critical requirement for autonomous ro...
In this paper we discuss Worcester Polytechnic Institute(WPI) and Carnegie Mellon University(CMU) te...
thesisThe DARPA Urban Challenge provided a purpose for autonomous ground vehicle research in recent...
We are building a mobile robot which will roam around the AI lab observing and later perhaps doing. ...