Difference between revisions of "Proj-2013-2014-BrasRobot-Handicap-2/SRS"
Line 105: | Line 105: | ||
⚫ | |||
− | == b. Markers detection == |
||
+ | Help the camera to detect the marker on the object, localise the object on the simulator relative to the robotic arm base, take it and bring it back |
||
+ | '''Description''': |
||
+ | Implement a simulator to move the robotic clamp in spacial coordinates |
||
+ | '''Inputs''': |
||
+ | Webcam, marker on the object, a users which can move all the robotic arm to make the object reachable |
||
+ | '''Source''': |
||
+ | '''Outputs''': |
||
− | '''Description''': The camera detect the marker on the object and locate it |
||
+ | A persons with arm disabilities can take an object |
||
+ | '''Destination''': |
||
⚫ | |||
+ | '''Action''': |
||
+ | The simulated robot follows a path to find the marker |
||
− | '''Inputs''': Video stream and markers |
||
+ | The detection program of the other groups give the displacement of the camera by sending data in sockets |
||
+ | The simulated robot take the object and bring it to a place |
||
− | '''Source''': ArUco library detection |
||
+ | '''Non functional requirements''': |
||
− | '''Outputs''': video stream with markers highlighted with their id and an xml file which contains the marker's id and the coordinates of the four points of the markers |
||
− | |||
⚫ | |||
− | |||
⚫ | |||
− | The ArUco library detects borders and analyzes in rectangular regions which may be markers. When a |
||
− | '''Non functional requirements''': The marker detection should be done in real time and faster |
||
− | '''Pre-condition''': |
+ | '''Pre-condition''': |
− | '''Post-condition''': |
+ | '''Post-condition''': |
− | '''Side-effects''': |
+ | '''Side-effects''': |
=4. Product evolution= |
=4. Product evolution= |
Revision as of 22:55, 18 April 2014
The document provides a template of the Software Requirements Specification (SRS). It is inspired of the IEEE/ANSI 830-1998 Standard.
Version | Date | Authors | Description | Validator | Validation Date | |
---|---|---|---|---|---|---|
TBC | TBC | TBC |
1. Introduction
1.1 Purpose of the requirements document
This Software Requirements Specification (SRS) identifies the requirements for the RobotArm - Handicap
1.2 Scope of the product
The purpose of this project is to make a simulator to make possible the robot to reach a destination, espacially a real object :
- One part concerns the embodiment of the GUI and a description of the robot
- A second part concerns the communication with the robot
- A third part concerns the communication with the program of detecting markers with the other group
1.3 Definitions, acronyms and abbreviations
Python : Python is a high-level programming language which supports multiple programming paradigms, including object-oriented, imperative and functional programming
VPython : Vpython is a Python language including a library which allows programmer making a GUI in three dimensions more reachable than other languages
1.4 References
Python : For Documentation
VPython : For Documentation
1.5 Overview of the remainder of the document
2. General description
2.1 Product perspective
The aim is to allow a robotic arm with five degrees of freedom to take an object previously detected and to bring it to a specific place. It will allow people with disabilities to take for example, a glass of water.
2.2 Product functions
2.3 User characteristics
The users doesn't need to know something about programming or how the robotic arm works. The last one have to work automatically.
2.4 General constraints
Software constraint:
Installing VPython is a quite difficult on windows and complicated on Linux
Material constraint :
There is some problems with the robotic arm
2.5 Assumptions and dependencies
The robotic arm can be controlled by the simulator
3.Specific requirements, covering functional, non-functional and interface requirements
- document external interfaces,
- describe system functionality and performance
- specify logical database requirements,
- design constraints,
- emergent system properties and quality characteristics.
3.1 Requirement X.Y.Z (in Structured Natural Language)
a. Markers detection
Description: The camera detect the marker on the object and locate it
Inputs: Video stream and markers
Source: ArUco library detection
Outputs: video stream with markers highlighted with their id and an xml file which contains the marker's id and the coordinates of the four points of the markers
Destination: All people, all object which can be taken by the robot
Action: The ArUco library detects borders and analyzes in rectangular regions which may be markers. When a
Non functional requirements: The marker detection should be done in real time and faster
Pre-condition: have a camera and ArUco library installed
Post-condition: The marker has to be well recognized.
Side-effects: failure of the marker recognition
Function:
Help the camera to detect the marker on the object, localise the object on the simulator relative to the robotic arm base, take it and bring it back
Description:
Implement a simulator to move the robotic clamp in spacial coordinates
Inputs:
Webcam, marker on the object, a users which can move all the robotic arm to make the object reachable
Source:
Outputs: A persons with arm disabilities can take an object Destination: All people, all object which can be taken by the robot (dimension) Action:
The simulated robot follows a path to find the marker The detection program of the other groups give the displacement of the camera by sending data in sockets The simulated robot take the object and bring it to a place
Non functional requirements:
Pre-condition:
Post-condition:
Side-effects: