Anne Wright

IROS Conference 2005 Conference Paper

The XBC: a modern low-cost mobile robot controller

• Richard LeGrand
• Kyle Machulis
• David P. Miller
• Randy Sargent
• Anne Wright

Much robotics research is carried out using either PICs and processors that are a decade or more out of date The alternative is custom built electronics that is expensive and/or must be reinvented every time a new project is begun. The XBC is a new design for a robot controller merging a modern ARM processor with an FPGA that allows high performance - especially in vision processing and motor control - for a cost similar to controllers with a fraction of its capabilities. Additionally, the XBC uses a new, and still free, software development system, already in wide use. The XBC is being mass produced (at least in research hardware terms) so it is readily available and does not require computer hardware or electronics skills in order to be obtained. This paper describes the system, its capabilities and some potential applications.

IROS Conference 2003 Conference Paper

CLARAty and challenges of developing interoperable robotic software

• Issa A. D. Nesnas
• Anne Wright
• Max Bajracharya
• Reid G. Simmons
• Tara A. Estlin

We present an overview of the Coupled Layered Architecture for Robotic Autonomy. CLARAty develops a framework for generic and reusable robotic components that can be adapted to a number of heterogeneous robot platforms. It also provides a framework that will simplify the integration of new technologies and enable the comparison of various elements. CLARAty consists of two distinct layers: a functional layer and a decision layer. The functional layer defines the various abstractions of the system and adapts the abstract components to real or simulated devices. It provides a framework and the algorithms for low- and mid-level autonomy. The decision layer provides the system's high-level autonomy, which reasons about global resources and mission constraints. The decision layer accesses information from the functional layer at multiple levels of granularity. We also present some of the challenges in developing interoperable software for various rover platforms.

ICRA Conference 2003 Conference Paper

Instrument deployment for Mars Rovers

• Liam Pedersen
• Maria Bualat
• Clayton Kunz
• Susan Y. Lee
• Randy Sargent
• Richard Washington
• Anne Wright

Future Mars rovers, such as the planned 2009 MSL rover, require sufficient autonomy to robustly approach rock targets and place an instrument in contact with them. It took the 1997 Sojourner Mars rover between 3 and 5 communications cycles to accomplish this. This paper describes the NASA Ames approach to robustly accomplishing single cycle instrument deployment, using the K9 prototype Mars rover. An off-board 3D site model is used to select science targets for the rover. K9 navigates to targets using deduced reckoning, and autonomously assesses the target area to determine where to place an arm mounted microscopic camera. Onboard K9 is a resource cognizant conditional executive, which extends the complexity and duration of operations that a can be accomplished without intervention from mission control.

AAAI Conference 1997 Conference Paper

Are You Being Served?

• David P. Miller
• Anne Wright