Embedded Motion Control 2015 Group 3

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This is the Wiki-page for EMC-group 3.


Week 1

Here, we present a summary of our initial design ideas:

Requirements Two requirements are devised, based on the description of the maze challenge. The first one is to be able to complete the challenge by finding a way out of the maze. The second requirement is that the robot should avoid bumping into the walls or doors. While this second requirement is not necessary for the completion of the challenge, it is helpful for the longevity and operation of the robot.

Functions The robot will know a number of basic functions. These functions can be divided into two categories: actions and skills. The actions are the most basic actions the robot will be able to do. The skills are specific sets of actions that accomplish a certain goal. The list of actions is as follows:

Drive

Turn

Scan

Wait

These actions are used for the skills. The list of skills is as follows: Drive to location Drive to a position in the maze based on the information in the map. This includes (multiple) drive and turn actions. Driving will also always include scanning to ensure there are no collisions. Check for doors Wait at the potential door location for a predetermined time period while scanning the distance to the potential door to check if it opens. Locate obstacles Measure the preset minimum safe distance from the walls or measure not moving as expected according to the driving action. Map the environment Store the relative positions of all discovered object and doors and incorporate them into a map. These skills are then used in the higher order behaviors of the software. These are specified in the specifications section.


Specifications The first specification results from the second requirement: Driving without bumping into objects. In order to do this, the robot uses its sensors to scan the surroundings. It then adjusts its speed and direction to maintain a safe distance from the walls.

The way the robot will solve the maze comprises of a few principle things the robot will be able to do. Because of the addition of doors in the maze, the strategy of wall hugging is no longer effective. Hence a different approach is required. The second specification is that the robot will remember what it has seen of the maze and that it makes a map accordingly. The robot should then use this map to decide which avenue it should explore. The escape strategy of the robot is an algorithm. Because the doors in the maze might not be clearly distinguishable, they might be difficult to detect. The only way to know for sure if a door is present at a certain location, is to stand still in front of the door until it opens. Standing still in front of every piece of wall in order to check for the presence of doors takes a long time and is therefore not desirable for escaping the maze as fast as possible. Therefore the robot first assumes that there are no doors in the way to the exit. It then explores by following the wall and taking every left turn. Whenever a dead end is hit, the robot goes back to the last intersection and chooses the next left path. Because the robot maps the maze, it knows whether it has explored an area and when it moves in a loop.

If no exit is found under the assumption that there are no doors, the robot starts checking for doors. See Figure 1 for different possible situations of where the doors are located. At first it assumes that there can only be doors at dead ends (1). If still no solution is found the robot also checks for doors at corners (2), followed by intersections (3) and finally on every outside wall of the currently mapped maze. In order to detect these doors the robot stands in front of the potential door for a certain time and checks with its sensors whether the distance to the nearest wall changes.

Can someone put the image that explains the doors here? Its Figure 1 in the initial design idea file!

Uncertainties

Certain aspects of the design are not yet clear due to uncertainties in the specifications of the robot and/ or the maze challenge. Depending on the difference between the end of the maze and the inside of the maze, the robot may be enabled to detect it has completed the challenge. If however the outside of the maze is simply an open space similar to a place inside the maze, the robot might not be able to distinguish the difference. In this case the robot would have to be stopped manually.

The exact specifications of the robot are still unknown and without testing the precise accuracy and range of the sensors, the resolution of the map and the safe wall distance are unknown.

In order to make the robot complete the challenge faster control over the speed of the robot could be used. This way it could move faster in area’s it has already mapped. This is only possible if the robot has the capability of moving at different speeds.

Week 2

Week 2 consisted mainly of trying to get all the tutorials to work. Only at the end of the week, we could actually get started on our project. We had a little brainstorm session to gather ideas to include in our software:

• Detecting openings in a corridor

• Detecting walls while driving straight

• Taking a corner

• Detecting walls while driving around a corner

• Drive in the middle of a corridor •Stopping for obstacles • What action do we need to take when an obstacle has been recognized? • What to do when it hits an obstacle that has not been detected by the sensors?

• Mapping the driven route (not necessary for corridor challenge)

• Recognizing dead ends, subsequently turning around.

• Indicate that the robot has found a door and wants to pass (beeping, sounding a horn, make a 360, use the pan-tilt function of the head, firing a missile...)(not necessary for corridor challenge)