KDOT PMS Replacement Project

R-PMS System Use Cases : Model . KDOT PMS Process and Data Flow Overview : Pool . PMS Modeling Processes : Choreography Sub-Process . Prediction Modeling : Activity

Referenced by Process Overview Diagram/R-PMS System - Splash Page Activity Diagram - R-PMS System - Prediction Modeling Activity Diagram link

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:Control Flow :Object Flow :Object Flow :Control Flow :Object Flow :Control Flow :Control Flow true:Control Flow false:Control Flow :Control Flow :Control Flow :Object Flow :Control Flow :Object Flow :Control Flow :Control Flow :Control Flow :Object Flow :Control Flow :Control Flow :Object Flow :Control Flow :Control Flow :Control Flow :Control Flow :Control Flow :Object Flow :Object Flow :Object Flow :Control Flow :Object Flow :Control Flow :Control Flow :Control Flow :Control Flow Maximize Benefits:Control Flow :Object Flow :Control Flow :Object Flow :Control Flow :Control Flow :Object Flow :Control Flow Minimize Costs:Control Flow Yes:Control Flow :Object Flow :Control Flow :Object Flow :Object Flow :Object Flow :Control Flow :Object Flow Current Flow (to be replaced in R-PMS):Control Flow :Object Flow :Object Flow :Object Flow :Control Flow :Object Flow :Object Flow :Control Flow :Object Flow :Object Flow :Object Flow :Control Flow :Object Flow :Object Flow :Object Flow :Constraint :Object Flow :Control Flow :Anchor No:Control Flow :Control Flow :Control Flow :Control Flow Yes:Control Flow :Anchor :Anchor :Constraint :Constraint :Constraint :Control Flow :Control Flow :Control Flow :Control Flow :Control Flow :Control Flow :Control Flow :Control Flow Alternative Flow via Vendor Predictive Modeling Solution:Control Flow PMS Modeling Swimlanes:Note This Activity Diagram presents the current system Modeling Process/Data flow on the left side of the Modeling Section Swimlane and the right side of the Swimlane is provided for the Vendor to proposed a predictive modeling set of processes.:Note Vendor Predictive Modeling Solution:Activity Normalization through Dimensionality Reduction:Action Constraint Generation:Action Generate Family of Curves per Dimension:Action :Fork Node Current Year Scan Data Normalization:Action Current Year Scan Data Integration in ML Database:Action Merged Optimization Final Report : Opt_FinalReport:Object Node Manual Review by KDOT: Yes or No Cost by Years are reasonable Goal Performance are reasonable Work Type are reasonable :Note Modify parameters:Action Benefit Analysis Acceptable :Decision Node Optimized Projects Portfolio : Proj_Portfolio:Object Node :Constraint :Constraint See notes in OneNote:Note This represents the Needs Assessment Activity of the present system:Note Determine Recommended Action:Action t=t+1:Action P_IFD>pp% | t=Max_t:Decision Node Calculate (L_et)_t:Action Calculate Distress Propability:Action Calculate IRI_t=IRI_(t-1)-(L_et)_t:Action Iterate t=time to First Distress (IFD):Loop Node Determine IRI_0 Equivalent Thickness:Action eqThickHistory : spEquivThickHistory:Object Node SegmentStateVector : clPMS_StateVector:Object Node R-PMS Vendor Proposed Modeling:Activity Partition Existing AECOM Modeling at KDOT:Activity Partition :Constraint Screening Project Scopes:Action Alt Candidate Project Portfolio : Proj_Portfolio:Object Node Generate Candidate Project Scopes:Action Candidate Project Segments : Proj_Segments:Object Node Matching Candidate Project to Segment:Action Candidate Project Portfolio : Proj_Portfolio:Object Node Identifying Candidate Projects:Action Need Assessment : LogProj_Job_Assessment:Object Node Rank Logical Projects:Action Jobs Report : LogProj_Jobs:Object Node Matching Logical Projects to Segments:Action Expansion Segment Report : Exp_SegReport:Object Node Expanding Transition Run:Action Steady State Requires Changes:Decision Node :Join Node Merged Benefit Analysis:Action Optimization Final Report : Opt_FinalReport:Object Node Iterative Optimization Report : TO_IncrementalReport:Object Node Incremental Optimization toward Steady State - Cost Minimization:Action Region:Expansion Region Generate Recommendation List:Action Orthogonal Actions of Cost Minimization and Benefit Maximization:Fork Node Optimization Final Report : Opt_FinalReport:Object Node Generate Recommendation List:Action Iterative Optimization Report : TO_IncrementalReport:Object Node Incremental Optimization toward Steady State - Benefit Maximization:Action :Expansion Region Transition Optimization Analysis Expanded - Road Category Level:Structured Activity Node Transition Optimization Analysis:Action Steady State Optimization:Action Optimization Report : SS_OptReport:Object Node Generate Optimization Report:Action Optimize per SA_UserParms input:Action For each Road Category in Snapshot Analysis:Loop Node Steady State Optimization Expanded:Structured Activity Node Identify the Road Categories:Activity Estimate Remaining Life - Markov Process:Action Calculate Segment Distress State Vector:Action SA_UserParms : SA_UserParms:Object Node Acquire Snapshot Analysis User Parameters:Action Snapshot Analysis : SA_UserParms:Object Node Categorize Segments:Action SS_UserParms : SS_UserParms:Object Node Acquire Snapshot User Parameters:Action AECOM_Snapshot : AECOMStateVector:Object Node Import a Snapshot:Action Generally these steps are either done manually or else not done at all:Rectangle Back to Primary Flow:Activity Final Node :Join Node :Fork Node Query Current Constraints Matrix:Action Start Modeling:Initial Node CCYY_Constraints : spCCYY_Constraints:Object Node For each1 mile Segment in KHS:Loop Node Categorize Segments Expanded:Structured Activity Node PMS Modeling Swimlanes:Swimlane

KDOT PMS Replacement Project