1. Creation of Optimal Product Families to Accommodate Human Variability using Principal Components Analysis Open Access Author: Manjrekar, Ketki Title: Creation of Optimal Product Families to Accommodate Human Variability using Principal Components Analysis Graduate Program: Mechanical Engineering Keywords: Principal components analysiscommonalitydistinctivenessproduct platformproduct familydesign for human variabilityaccommodation File: Download MS_thesis.pdf Committee Members: Matthew B Parkinson, Thesis Advisor/Co-AdvisorMatthew B Parkinson, Thesis Advisor/Co-Advisor
2. A Product Family Optimization Approach Using Multidimensional Data Visualization Open Access Author: Slingerland, Laura A. Title: A Product Family Optimization Approach Using Multidimensional Data Visualization Graduate Program: Mechanical Engineering Keywords: multiobjective optimizationproduct platformproduct familycommonalityvisualization File: Download Thesis_Laura_A_Slingerland.pdf Committee Members: Timothy William Simpson, Thesis Advisor/Co-AdvisorTimothy William Simpson, Thesis Advisor/Co-Advisor
3. DEVELOPMENT AND EVALUATION OF SOFTWARE FOR SYSTEMATIC BENCHMARKING OF PRODUCT FAMILIES Open Access Author: Sarnobat, Rahul Umesh Title: DEVELOPMENT AND EVALUATION OF SOFTWARE FOR SYSTEMATIC BENCHMARKING OF PRODUCT FAMILIES Graduate Program: Industrial Engineering Keywords: Toolkitproduct familybenchmarking softwarebenchmarkingMicrosoft Excel add-in File: Download Thesis_Rahul_Sarnobat_0825.pdf Committee Members: Timothy William Simpson, Thesis Advisor/Co-AdvisorTimothy William Simpson, Thesis Advisor/Co-Advisor
4. Shape Grammar Composition and Salient Feature Identification for a Product Family Open Access Author: Culbertson, Timothy David Title: Shape Grammar Composition and Salient Feature Identification for a Product Family Graduate Program: Industrial Engineering Keywords: product familystylesimilarityshapeaestheticsfeature identificationfreeform surfaceengineering designindustrial designdesign automation File: Download Culbertson_MSIE_Thesis.pdf Committee Members: Timothy William Simpson, Thesis Advisor/Co-Advisor