Intelligent Transport System | Reliable Papers

1SCHOOL OF ARCHITECTURE, COMPUTING & ENGINEERINGSubmission instructions• Submission will be On-line via Turn-it-in/Moodle Module codeEG7031Module titleIntelligent Transport SystemModule leaderDr Alex ApeagyeiAssignment tutorDr Alex ApeagyeiAssignment titleIndividual CourseworkAssignment number1Weighting100%Handout date20 October 2020Submission date07 January 2021 16:00Learning outcomesassessed by thisassignmentLearning Outcome 1-6Turnitin submissionrequirementYesTurnitin GradeMark feedbackused?NoGrade Booksubmission used?NoGrade Book feedback used?NoOther electronicsystem used?NoAre submissions / feedbacktotally electronic?NoAdditional information• All contents to be compiled into one file for uploading• You may upload as many times as you wish beforethe deadline• All pages to be numbered sequentiallyInternal VerificationVerifier: Dr Julius AkotiaDate verfified: 09/10/2020 2Form of assessment:Individual work Group workFor group work assessment which requires members to submit both individual and groupwork aspects for the assignment, the work should be submitted as:Consolidated single document Separately by each memberNumber of assignment copies required:1 2 OtherAssignment to be presented in the following format:On-line submissionStapled once in the top left-hand cornerGlue boundSpiral boundPlaced in a A4 ring bound folder (not lever arch)Note: To students submitting work on A3/A2 boards, work has to be contained insuitable protective case to ensure any damage to work is avoided.Soft copy:CD (to be attached to the work in an envelope or purpose made wallet adheredto the rear)USB (to be attached to the work in an envelope or purpose made wallet adheredto the rear)Soft copy not requiredNote to all studentsAll work has to be submitted to Module MOODLE.3Project Brief1. System performance (40%)For the network depicted in Figure Q1.1 and the travel time and distances given in Table Q1.1,determine:a) the route with the shortest distance from Brighton to Exeter using Dijkstra’s algorithm. (15%)b) the route with the shortest time from Brighton to Exeter using Dijkstra’s algorithm. (10%)c) Using an appropriate optimization software of your choice (I recommend MS Excel or Matlab),check the results obtained in b) above. Briefly (one or two sentences) compare the results froma) and b). (15%)In your asnwers, clearly show all the appropriate steps you took to arrive at your answers in a)and b). The inputs and outputs from the software used in c) should also be documented in yourreport. Provide high quality diagrams to depict your results.Figure Q1.1. Network location detailsTable Q1.1. Network travel time and distances RoadDistance(mi)Time(min)M3aLondon – Basingstoke4846M3bBasingstoke – Southampton3030M4London – Bristol118110M5Bristol – Exeter8877M23London – Brighton5255A27Brighton – Southampton6590A35Southampton – Exeter104160A36aBristol – Salisbury5072A36bSouthampton – Salisbury2130A303aBasingstoke – Salisbury4053A303bSalisbury – Exeter87123 42. Management of transport systems (30%)A bourough in charge of a city plans to adopt intelligent transportation systems solutionto improve travel on their network for two locations A and B. Analysis shows the threealternative routes between the origin-destination pair A-B have travel times which isrelated to the volume rate of flow (Figure Q2.1). If xi (I = 1, 2, 3) represents the number ofvehicles per unit time, the travel times are given by:If 100 vehicles per unit time leave A, determine the optimal division of traffic between thethree routes so thata) the overall travel times will be minimized (10%)b) the total disutility in commuter-hours will be minimized (10%)c) Based on the results obtained in a) and b), recommend a policy for improvingtravel in the borough by briefly explaining the reasons for your choice. (10%)Figure Q2.1 Alternative routes between origin-destination pair A-B3. Transportation modelling (10%)Briefly discuss how transportation planning is intricably linked with land use planning inurban areas.4. Transport and the environment (10%)Discuss the main problems related to the sustainability of modern transportation systemsand how technology could be used to address them.5. Presentation (10%)Top marks to be awarded to well-presented submission satisfying all submissionrequirements.5Submission Requirements1. Work is to be word-processed and this should be in a clear legible typeface.2. All the work must be the student’s own. All written work to be put through ‘Turnitin’and final report included with submission (maximum similarity index 30%).3. Submissions must be properly structured; this may involve pre-planning yourwork. The report must have an introduction, a contents page, rationale andconclusion as well as the main subject matter.4. All figures and tables must be appropriately titled within the body of the text.5. All pages should be clearly numbered.6. A bibliography and/or any references used must be provided. Referencing to beHarvard Notation (if in doubt, check ‘Cite them Right’).7. Sketches may be in pencil with inked notes or produced by computer.8. Calculations must be logically laid out so that they can be easily checked.9. All work submitted must have a front sheet that clearly shows the student ID,module code and title, module instructor (s), academic term and academic year.10.The work must be submitted on MOODLE “Turnitin” before the deadline.11.Work which is submitted after the deadline but within 24 hours of the due date andtime will have 5% deduction in the marks, submission which is beyond 24 hourswill receive zero marks, unless extenuating circumstances are approved.SUBMISSION DATE : 07 January 2021 16:00

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