Exercise 2: Search Agent

For this second exercise, you will again be implementing an agent that solves problems in the MÆDEN environment. As the focus of this assignment, your agent can have internal state and can use search to find paths to locations in the environment. This is an individual project. As always, I encourage you to talk to your peers about ideas or to me and to ask questions. But the code you submit must be your own code.

Requirements

Write an agent that solves problems in the MÆDEN environment. Problems may involve not only wall obstacles but also removable obstacles and tools that remove those obstacles. Problems will be guaranteed to have solutions. These sub-tasks are intended to provide a reasonable development path of increasing complexity and capability. You may build upon your reactive agent if you wish, or you may start with a blank slate.

  1. Search within the visual field. Suppose your agent wants to move forward but is facing a wall blocking its progress. If there is a viable path through the visual field to a spot beyond the obstacle, your search method should find the optimal (least number of moves) path to that spot. Your method should search for a path from the agent's current location to any given location in the visual field.
  2. Subgoal generation. Given the ability to find a path to an arbitrary location in the visual field, your agent will need to generate its own subgoals (e.g., when it encounters obstacles). Once your agent establishes a new subgoal, finds a path to it, and successfully follows the path, it should continue with its original goal (e.g., getting to the food). Your agent should start of with its goal as getting to the food. But if encountering a removable obstacle that must be removed in order to reach the food, the agent should create a subgoal to remove the obstacle (i.e., using the appropriate tool), which may require a subgoal of obtaining the tool, which may require a subgoal of finding such a tool, and so on. This version of your agent is not expected to solve every conceivable problem although a solution will always exist.
  3. Option: Searching through mental maps. As your agent moves about (following its nose for example), it encounters more and more of the world. Sometimes, an agent must rely on a memory of where it has previously been in order to solve more challenging problems. For example, perhaps the agent cannot get around an obstacle using search through the visual field. You may choose to augment your agent with the ability to construct mental maps of all the places it has observed. Once the agent is constructing maps of the explored portion of the environment, either generalize your search method from above or provide an additional search method so as to search for paths to an arbitrary location in the mental map. Having found such a path, your agent should follow it and then continue with what it was doing (e.g., following its nose).
  4. Putting everything together. A recommended approach is for your agent to use a reactive problem-solving strategy (e.g., following its nose) until it encounters an obstacle. At that point, it tries to find a path through the visual field. If that fails, it resorts to searching through the mental map constructed so far. Finally (if searching through the mental map will not traverse unknown territory), the agent should move in an exploratory mode in the hopes that an expanded mental map will yield progress.

Your code should be documented thoroughly. Do not neglect to include an acknowledgments header within your submission. You may use a language of your choice. However, I must be able to run your system without an IDE or installing any specialized libraries. FYI, I have Racket, Common Lisp, Ruby, Python, Java, and C++ on my machine. If you want to use something else, talk to me before investing effort on the above tasks. If you need assistance connecting to MÆDEN via the socket layer, ask me for help.

The Report

You should write a one-page report of your activities and findings associated with this assignment. Your report should serve as a stand-alone document; thus, it should describe the problem or focus, the approach that you employed, and an indication of how well it performed. For example, you might describe the worlds you used (and/or created) to test your agent. If you chose to implement mental maps (described in your activities), you should report how that improved your agent's performance in terms of worlds completed. In any case, you should compare your search agent to your reactive agent. You are welcome to include figures if you think they contribute to the report; however, make sure your picture really is worth a thousand words.

I am providing a modified template file that you should use to format your one-page report; this template works with Libreoffice. If you would rather use LaTeX, you may use the style file from the ACM.) Your affiliation should be just “Westmont”; If using a template from the ACM site (instead of the one I provide), you should make the following modifications:

When you have completed your report and its formatting, generate a pdf document to be included in your final submission.

Submission instructions:

Submit a zip or tar archive only. Make sure that when unpacked your archive creates a folder with your Westmont emailname and "P2" (no spaces); for example, someone named Eva Bailey might create a folder called "evabaileyP2" or "ebaileyP2". Make sure that inside that folder you have the following:

  1. documented source file(s) for your agent;
  2. README, containing instructions for loading and running your agent; this would be a logical location to provide any acknowledgments that are appropriate;
  3. a one-page pdf report describing your work on this assignment.
Finally, submit the archive containing these on Eureka.