Internal:Bthomas weekly agenda
From Brown University Robotics
Revision as of 19:58, 28 February 2011 by Bthomas
Agenda: 2011/03/01 T
This paper presents a method for following natural-language route instructions using four actions and pre- and post-conditions using a system called "Marco". Natural language instructions ware modelled through parsing, extracting each sentence's surface meaning, and modelling inter-sentence spatial and linguistic knowledge. Given this model and the perception of the environment, an executor determines which of the four actions (namely, Turn, Travel, Verify, and Declare-goal) to take, a process dubbed "compound action specification". Implicit actions including the actions Travel and Turn are inferred when necessary. (For instance, the instruction "Go to the chair." may first require Marco to turn to find the chair.) To evaluate Marco's performance, approximately 700 instructions were created by 6 paricipants over 3 virtual worlds. Another set of 36 participants followed these instructions. Each instruction was followed 6 times, and both success at reaching the desired goal point and the participant's subjective rating of the instruction were recorded. Each instruction was parsed and hand-verified for Marco, and Marco attempted to follow each parsed instruction set. A statistically significant difference was found between Marco's abilities with implicit actions and without them.
The paper suggests that the four actions present are sufficient for many route-following tasks. However, many real-world obstacles such as doors, stairs, and multiple floors are typically present. It would be interesting to see how this could scale to a real-world domain, and it would be especially enlightening to see this task performed in the real world by a robot. When evaluating Marco's performance, the evaluation of Marco's performance differed from that of the humans. (Humans started in a random direction, and Marco made four attempts from four different directions and averaged (How?) the results.) It would be helpful if a rationale for this decision was included or if the data would be reevaluated with Marco starting out in a random orientation to match the human trials. Finally, the paper's abstract claims that Marco "follows free-form, natural language route instructions". However, only hand-parsed trees were evaluated, and the parsing methodology was only briefly discussed. Please provide a rationale for why the parser was not used in the evaluation. Further, more detail on the parsing involved -- especially on how pre-conditions and post-conditions were formed -- would be appreciated. The section comparing this paper to Instruction-Based Learning could be cut to allow for the space necessary to describe this.
Agenda: 2011/02/22 T
Agenda: 2011/02/15 T
Agenda: 2011/02/08 T