程序代写代做代考 gui c++ data structure matlab Excel algorithm Department of Electrical Engineering and Electronics

Department of Electrical Engineering and Electronics
ELEC362
Project
Linear regression application
Module
Coursework name
Component weight
Semester
HE Level
Lab location
Work
*Estimated time to finish Assessment method Submission format
Submission deadline
Late submission
Resit opportunity
Marking policy
Anonymous marking
Feedback
Expected release of marks date Learning outcomes
ELEC362 Project 50%
1
5
personal computers/laptops, university remote computer
Individual
40 hours (coding and testing)
Individually
Online via VITAL
11.59 pm on the 17th January, 2021
Standard university penalty applies
None except for extenuating circumstance
Marked and moderated independently
No (the marker needs to link the code to the report)
via VITAL GradeMark® / Turnitin Feedback Studio
15 business days from the deadline
LO2: Using C++ to implement GUI-based software. LO3: Using online documentation for self-learning.
*Note: This estimate may vary based on the need to debug your application. Make sure you start working on the project as soon as possible.
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The project
Task 1: Design and implement a Qt-based GUI linear regression application. The application reads a file of data points, given by two columns one for x coordinates and one for y coordinates, then calculates the best linear fit of the form:
𝑦 = 𝑎𝑥 + 𝑏
Where “a” and “b” are parameters to be determined by the application. You are requested to work on the GUI only. The regression part of the application will be done by GSL library. Binaries for linking Qt to the library will be provided for both Windows and Mac OS on VITAL. The documentation of the linear regression part of the library can be found in this link. You are not asked to study the theory behind linear regression. All what you are expected to do is to know how to implement the function from the library into your application, and how to display its return or output to the user.
The application will be used to do linear regression for one file at a time.
In addition to the core functionality mentioned above, the application:
– Should plot the data and the fitted curve on a single graph in the application.
– Should allow the user to choose the thickness and the colour of the plotted curve using 3
different means.
– Should give the user the option to do the fitting with and without a constant term.
– Should be validated, in the report, by using a test dataset as an input to the application
obtaining the fitted line, then comparing the fit to a linear fit by another programme such as
MATLAB or MS EXCEL (No linking to EXCEL or MATLAB is required in the application).
– Should be able to deal with potential run-time errors, which the developers should identify.
Task 2: Modify the application to have a bilinear fit mode, where the fit of the dataset should be done using a piecewise function of the form:
𝑎1𝑥 + 𝑏1 𝑥 < 𝑥0 𝑦={ 𝑎2𝑥 + 𝑏2 𝑥 > 𝑥0
The application should calculate (a1,b1,a2,b2) in additional to automatically identify the point x0 which gives the best possible fit. This part if meant to be as a challenge and as a result no hints will be given on how to do this part. An example of a bilinear fit is shown in figure 1.
It is an expectation from everyone to consult Qt documentation to find any functions or classes that might be useful for the implementation of this project. Finally, you should make the programme as professional as possible. Imagine this project as a real-life project given to you.
Approach to be followed
The following steps will help you to have a good design and implementation of the application:
– Start by conducting a background overview of the available programs that for linear
regression and how they are used. This will give you a feeling of what a professional design is
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and a better understanding of the core functionality. Make sure the practical notes given in
the lectures ae taken into consideration in your design and implementation.
– Follow the incremental model by breaking the implementation of the application into smaller
parts, where every part is designed, implemented and tested before other parts are
implemented.
– Make sure your application is working perfectly before moving to task 2.
Note for Mac OS users: You can develop the application and write the report based on Mac version of the app. The application will be tested and marked on a Windows machine. You are strongly recommended to verify that your app works as it should on a windows machine before submission, to avoid any potential cross-platform issue, if you have any problems, please let me know.
X0
The deliverables
Every submission should consist of the project’s files + brief report (Do NOT submit GSL library’s files as I will compile your project with local GSL files on my machine). The report must have the student’s name and ID number. The report does not need an introduction or a conclusion, it must have a cover page, and includes the following sections:
• How the programme works (explain the idea of the algorithm, include a block diagram).
• User instructions (how should the user use it)
• Testing and verification attempts.
• Overall notes (optional): in this section you can highlight any special features in your design
or implementation of the application. Or you can mention any major issue you faced how
you overcome it. If you left this section empty you will not lose any marks.
• Appendix: headers+ source files (must be in machine readable format).
a1 , b1 here
Figure 1: Example of a bilinear fit for data.
a2 , b2 here
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Industrial Relevance
Designing a GUI for a C++ library is a routine task for software developers at MATLAB (where some linear algebra packages are embedded), National Instruments (MultiSim where libraries for solving ordinary differential equations are embedded), ANSYS (where all their products such as Fluent and CFX include libraries related to meshing and nonlinear solvers), CST studio suite, and the list goes on..
Many software development projects are entirely based on building GUI to famous libraries, examples include Elmer FEM software, Gmsh, and ParaView.
Mapping the project to modules’ material:
Aspect
Where it is covered
Creating child windows or child dialogs.
Lecture 16, Lecture 18
Linking external library in Qt
Lecture 13, instruction videos, the tutorial
Saving object in vectors in Qt
Week 8 lab, the tutorial
Loading and saving files
Lecture 18, week 9 lab
Error handling
week 9 lab, the tutorial
Implementing mouse functionality
Lecture 16, the tutorial
Handling drawings
Lecture 17, the tutorial
Implementing a functionality using different methods
Lecture 16, week 8 lab
Controlling the style, layout and GUI design
Lecture 15, the tutorial
Implementing buttons and other input widgets functionality
Lectures 14-15, week 7 lab
Online documentation
https://doc.qt.io
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*Marking Criteria
Criteria (weight %)
What does it mean?
Indicative characteristics
Adequate / pass
(40%)
Very good / Excellent
• The programme does what it designed to do without any flaws an in an efficient way
• The memory management is very efficient.
Algorithm and design of the programme (task 1) (20%)
Does the application do what it is designed to do? Does the application handle memory efficiently?
• The programme does what it designed to do with clear shortcoming.
• The use of memory is completely inefficient but is working.
Code and GUI
implementation (task 1) (20%)
Is the code well
organised? Are the variables named properly? Is the code well commented? Does it use the most suitable datatypes for the variables? Is the GUI user friendly?
• Thecodeshowsthe
steps but is difficult to understand what it does.
• Poorlycommented code.
• The naming of the variables is arbitrary and does not give any idea on what the variables are used for.
• TheGUIisdifficultto handle and is unorganised.
• LayoutoftheGUIis not set.
• The code is written in very
organised way that is easy to follow.
• The code is very well documented.
• The variable naming is appropriate and follows professional naming rules.
• The GUI is very easy to work with.
• The data structure used are the most appropriate for the purpose they are used for.
Verification and Error-Handling (task 1) (20%)
Has the application been validated and verified? What does the programme do if there is a run-time error?
• The application was tested for one case only.
• Theapplication contains minimal error handling.
• The application has been thoroughly tested.
• Error handling has been done professionally for a number of potential run-time errors and user input errors as well.
Task 2 (15%)
Does the application provide bilinear fitting mode? Does it determine X0 automatically?
• The bilinear mode works with many shortcomings.
• The bilinear mode works automatically in a fully functional manner without any flaws.
• The report is well written, and all the relevant information it should contain are clearly stated.
• The report is concise.
Report
(25%)
Is the report clear and descriptive? Does it have all sections? Are the user instructions given clear?
• Thereportis understandable but contains many errors.
• Thelengthofsome sections is inappropriate – either too short or too long.
• Thesourcecodesare given in the appendix but they are not machine readable.
*If you have a feedback query after the marks are released make sure you contact me within 2 weeks, after that the marks are finalised and sent to the SSO.
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