Term Project-2 Details Scope This term project aims to combine your knowledge on Quin Theory other with your analysis and development skille. You will be working as a team and are asked to provide a decir support tool (DST) to perform various Queuing Thewy Quring Modely Details and delivenble requirements we provided in the requirements section Requirements Input requirements: This part is explaining the treated to the wer inputs of the DST. 1st of inputs expected from the - The queuing del OM) e analysed. This should be a drop down men that the user can select from can be one of the following MMIGD MMIGDN MMG MMDN MMD-Vice model M MORGDKK repair shop model) MGGD. (PK formula Parameters of the OM depending on the selected quering model. The following matrix provides the necessary for each OM Functionality Requirements. This part of the project describes what kind of calculation and operations your DST must be pedig - Checking of the the user clected a OM from the drop down menu. not want the Depending on the men selected display the required parameter input fields and check for the validity of all required parameters Calculate the following date mures of performance Or for upto 301 for limited NOM DLL LLW.W Clearing all the inputs and outputs with button command Output Requirements. This part of the project describes what outputs your DST should be delivering to wers. You are supposed to provide the steady-state measures of performance described previously. Namely, you should display the results for for uplo 20. for limited N OMSL LLW.W Other Details - You can use any programming language to develop your DST. Excel VB is recommended but not mandatory Submission deadline: January, Friday, 23:59 -All scam members are expected to contribute - An el presentation and demonstration will be done randomly on the group members, explaining all the details of the project - You will be delivering all of your source code project files and related items - You will also deliver a small report how your DST is used by providing screenshots on a sample data mest gen) Term Project-2 Details Scope: This term project aims to combine your knowledge on Queuing Theory together with your analysis and development skills. You will be working as a team and are asked to provide a decision support tool (DST) to perform various Queuing Theory Queuing Models analysis. Details and deliverible requirements are provided in the requirements section. Requirements: Input requirements: This part is explaining the items related to the user inputs of the DST. List of inputs expected from the user are: - The queuing model (QM) to be analysed. This should be a drop down menu that the user can select from. It can be one of the following: o M/MI:GD// OM/M/1:GD/N/ OM/M/e:GD// OM/M/c:GD/N/. OM/M/GD (self-service model) OM/M/R:GD/K/K (repair-shop model) OMG/1:GD./ (P-K formula) - Parameters of the QM depending on the selected queuing model. The following matrix provides the necessary input for each QM: Queaing Model Impat Parameters Needed MMG MM 1:GDYNA LEN MMCGD M/M GDN LON MMG (elf-service model MMR:GDKK (repair shop del L. RK MG/GDPK formula) LEX. Varto LC Functionality Requirements: This part of the project describes what kind of calculations and operations your DST must be providing: - Checking if the the user selected a QM from the drop down menu. If not warn the user. - Depending on the menu selected, display the required parameter input fields and check for the validity of all required parameters. - Calculate the following steady-state measures of performance: OP.P. (forn upto 20), o for limited N QMs: p., IL OL.L.W.W Output Requirements: This part of the project describes what outputs your DST should be delivering to users. You are supposed to provide the steady-state measures of performance described previously. Namely, you should display the results for: OP. p. (forn upto 20), o for limited N QMS: LL OL.L.W.W Other Details: - You can use any programming language to develop your DST. Excel VB is recommended but not mandatory. - Submission deadline: January 7th, Friday, 23:59 - All team members are expected to contribute - An oral presentation and demonstration will be done randomly on the group members, explaining all the details of the project - You will be delivering all of your source code, project files and related items - You will also deliver a small report/manual on how your DST is used by providing screen shots on a sample data (at most 5 pages)