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Advances in product design engineering / / Panagiotis Kyratsis, Nikolaos Efkolidis, and J. Paulo Davim, editors
| Advances in product design engineering / / Panagiotis Kyratsis, Nikolaos Efkolidis, and J. Paulo Davim, editors |
| Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , [2022] |
| Descrizione fisica | 1 online resource (237 pages) |
| Disciplina | 745.2 |
| Collana | Management and Industrial Engineering |
| Soggetto topico |
Product design - Data processing
Product design |
| ISBN | 3-030-98124-X |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910561300203321 |
| Cham, Switzerland : , : Springer, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advances in product development and reliability III : selected, peer reviewed papers from the 3rd International Conference on Advances in Product Development and Reliability (PDR 2012), July 28-30, 2012, Wuhan, China / / edited by L. Gao [and three others]
| Advances in product development and reliability III : selected, peer reviewed papers from the 3rd International Conference on Advances in Product Development and Reliability (PDR 2012), July 28-30, 2012, Wuhan, China / / edited by L. Gao [and three others] |
| Pubbl/distr/stampa | Stafa-Zurich, Switzerland ; ; Enfield, NH : , : Trans Tech Publications, , [2012] |
| Descrizione fisica | 1 online resource (313 p.) |
| Disciplina | 620.00452 |
| Altri autori (Persone) | GaoL |
| Collana | Advanced materials research |
| Soggetto topico |
Production engineering
Product design New products |
| Soggetto genere / forma | Electronic books. |
| ISBN | 3-03813-864-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Advances in Product Development and Reliability III; Preface and Organizing Committee; Table of Contents; Solving the Flexible Job Shop Scheduling Problem Based on Memetic Algorithm; The Optimal Combination Research of System Configuration and T&M Policy of Standby Safety System; Black Box System Multi-Objective Optimization Based on Design of Experiment; Strength and Reliability Analysis of Hydraulic Support; Equipment Performance Degradation Modeling for Reliability Prediction Based on n-ARIMA Model; Research on Fault Diagnosis Based on BP-SOM Hybrid Algorithms for NC Machine
An Optimization Method of the Heavy Machine Cutting ParametersOptimization of Condition-Based Maintenance Policy for Deteriorating System Based on Monte-Carlo Simulation; Variable-Fidelity Multidisciplinary Design Optimization Based on Analytical Target Cascading Framework; Distribution of Time Between Failures of Numerical Control System Based on Censored Data; Research on Two Ends Energy-Absorbing Structure of High-Speed Railway Passenger Car Body; A Study on the 6-6 Stewart Parallel Mechanism Dynamics in ADAMS Small Sample Reliability Analysis of Automatic Ultrasonic Testing of Austenitic Steel DefectDesign of Current Selective Protection in Intelligent Molded Case Circuit Breaker; Research on Profit Model of Diesel Engine Products-Services System; Wear Life Prediction for a Large Diameter Spool Valve; Testability Design of the PHM System for Aero-Engines; Design and Research of Large-Inclination Screw Conveyor Angle Changing Test Equipment; R&D Investment on Alternative Fuel Vehicles: Insights from a Two-Stage Game Theoretic Model Reliability Analysis for Rotor System with Oil Whip and Resonance Based on FrequencyA New Reliability Analysis Method Based on Stability Reliability for Closed-Loop Control System; A Fuzzy Linguistic Go/No-Go Decision Model in New Product Development; On Uncertainties of Kansei in Kansei Engineering: A Fuzzy Linguistic Approach; Strength Optimization Design of a Helical Hydraulic Rotary Actuator; Modeling of Fatigue Crack Closure by Finite Element Method; Study on Influencing Factors on Reliability of Permanent Magnet Synchronous Motor System in Electric Vehicle Projection Model of Intuitionistic Fuzzy Multiple Attribution Decision Making about Preventive Maintenance Modes in RCMAAnalytical Target Cascading Based on the Quadratic Exterior Penalty Method for Complex System Design; The Simulation of the Ship Production Design Process Based on Hierarchical Timed Petri Net; Intelligent Irrigation System Reliability Simulation; Determination of the Critical Plane under the Multiaxial Complex Loading; Research of the Thought and Method in Function Reserving Design Based on Individuation Degree Evaluation Optimal Design of the Large-Diameter Spinning Torispherical Head |
| Record Nr. | UNINA-9910462848503321 |
| Stafa-Zurich, Switzerland ; ; Enfield, NH : , : Trans Tech Publications, , [2012] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advances in product development and reliability III : selected, peer reviewed papers from the 3rd International Conference on Advances in Product Development and Reliability (PDR 2012), July 28-30, 2012, Wuhan, China / / edited by L. Gao [and three others]
| Advances in product development and reliability III : selected, peer reviewed papers from the 3rd International Conference on Advances in Product Development and Reliability (PDR 2012), July 28-30, 2012, Wuhan, China / / edited by L. Gao [and three others] |
| Pubbl/distr/stampa | Stafa-Zurich, Switzerland ; ; Enfield, NH : , : Trans Tech Publications, , [2012] |
| Descrizione fisica | 1 online resource (313 p.) |
| Disciplina | 620.00452 |
| Altri autori (Persone) | GaoL |
| Collana | Advanced materials research |
| Soggetto topico |
Production engineering
Product design New products |
| ISBN | 3-03813-864-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Advances in Product Development and Reliability III; Preface and Organizing Committee; Table of Contents; Solving the Flexible Job Shop Scheduling Problem Based on Memetic Algorithm; The Optimal Combination Research of System Configuration and T&M Policy of Standby Safety System; Black Box System Multi-Objective Optimization Based on Design of Experiment; Strength and Reliability Analysis of Hydraulic Support; Equipment Performance Degradation Modeling for Reliability Prediction Based on n-ARIMA Model; Research on Fault Diagnosis Based on BP-SOM Hybrid Algorithms for NC Machine
An Optimization Method of the Heavy Machine Cutting ParametersOptimization of Condition-Based Maintenance Policy for Deteriorating System Based on Monte-Carlo Simulation; Variable-Fidelity Multidisciplinary Design Optimization Based on Analytical Target Cascading Framework; Distribution of Time Between Failures of Numerical Control System Based on Censored Data; Research on Two Ends Energy-Absorbing Structure of High-Speed Railway Passenger Car Body; A Study on the 6-6 Stewart Parallel Mechanism Dynamics in ADAMS Small Sample Reliability Analysis of Automatic Ultrasonic Testing of Austenitic Steel DefectDesign of Current Selective Protection in Intelligent Molded Case Circuit Breaker; Research on Profit Model of Diesel Engine Products-Services System; Wear Life Prediction for a Large Diameter Spool Valve; Testability Design of the PHM System for Aero-Engines; Design and Research of Large-Inclination Screw Conveyor Angle Changing Test Equipment; R&D Investment on Alternative Fuel Vehicles: Insights from a Two-Stage Game Theoretic Model Reliability Analysis for Rotor System with Oil Whip and Resonance Based on FrequencyA New Reliability Analysis Method Based on Stability Reliability for Closed-Loop Control System; A Fuzzy Linguistic Go/No-Go Decision Model in New Product Development; On Uncertainties of Kansei in Kansei Engineering: A Fuzzy Linguistic Approach; Strength Optimization Design of a Helical Hydraulic Rotary Actuator; Modeling of Fatigue Crack Closure by Finite Element Method; Study on Influencing Factors on Reliability of Permanent Magnet Synchronous Motor System in Electric Vehicle Projection Model of Intuitionistic Fuzzy Multiple Attribution Decision Making about Preventive Maintenance Modes in RCMAAnalytical Target Cascading Based on the Quadratic Exterior Penalty Method for Complex System Design; The Simulation of the Ship Production Design Process Based on Hierarchical Timed Petri Net; Intelligent Irrigation System Reliability Simulation; Determination of the Critical Plane under the Multiaxial Complex Loading; Research of the Thought and Method in Function Reserving Design Based on Individuation Degree Evaluation Optimal Design of the Large-Diameter Spinning Torispherical Head |
| Record Nr. | UNINA-9910786283703321 |
| Stafa-Zurich, Switzerland ; ; Enfield, NH : , : Trans Tech Publications, , [2012] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advances in product development and reliability III : selected, peer reviewed papers from the 3rd International Conference on Advances in Product Development and Reliability (PDR 2012), July 28-30, 2012, Wuhan, China / / edited by L. Gao [and three others]
| Advances in product development and reliability III : selected, peer reviewed papers from the 3rd International Conference on Advances in Product Development and Reliability (PDR 2012), July 28-30, 2012, Wuhan, China / / edited by L. Gao [and three others] |
| Pubbl/distr/stampa | Stafa-Zurich, Switzerland ; ; Enfield, NH : , : Trans Tech Publications, , [2012] |
| Descrizione fisica | 1 online resource (313 p.) |
| Disciplina | 620.00452 |
| Altri autori (Persone) | GaoL |
| Collana | Advanced materials research |
| Soggetto topico |
Production engineering
Product design New products |
| ISBN | 3-03813-864-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Advances in Product Development and Reliability III; Preface and Organizing Committee; Table of Contents; Solving the Flexible Job Shop Scheduling Problem Based on Memetic Algorithm; The Optimal Combination Research of System Configuration and T&M Policy of Standby Safety System; Black Box System Multi-Objective Optimization Based on Design of Experiment; Strength and Reliability Analysis of Hydraulic Support; Equipment Performance Degradation Modeling for Reliability Prediction Based on n-ARIMA Model; Research on Fault Diagnosis Based on BP-SOM Hybrid Algorithms for NC Machine
An Optimization Method of the Heavy Machine Cutting ParametersOptimization of Condition-Based Maintenance Policy for Deteriorating System Based on Monte-Carlo Simulation; Variable-Fidelity Multidisciplinary Design Optimization Based on Analytical Target Cascading Framework; Distribution of Time Between Failures of Numerical Control System Based on Censored Data; Research on Two Ends Energy-Absorbing Structure of High-Speed Railway Passenger Car Body; A Study on the 6-6 Stewart Parallel Mechanism Dynamics in ADAMS Small Sample Reliability Analysis of Automatic Ultrasonic Testing of Austenitic Steel DefectDesign of Current Selective Protection in Intelligent Molded Case Circuit Breaker; Research on Profit Model of Diesel Engine Products-Services System; Wear Life Prediction for a Large Diameter Spool Valve; Testability Design of the PHM System for Aero-Engines; Design and Research of Large-Inclination Screw Conveyor Angle Changing Test Equipment; R&D Investment on Alternative Fuel Vehicles: Insights from a Two-Stage Game Theoretic Model Reliability Analysis for Rotor System with Oil Whip and Resonance Based on FrequencyA New Reliability Analysis Method Based on Stability Reliability for Closed-Loop Control System; A Fuzzy Linguistic Go/No-Go Decision Model in New Product Development; On Uncertainties of Kansei in Kansei Engineering: A Fuzzy Linguistic Approach; Strength Optimization Design of a Helical Hydraulic Rotary Actuator; Modeling of Fatigue Crack Closure by Finite Element Method; Study on Influencing Factors on Reliability of Permanent Magnet Synchronous Motor System in Electric Vehicle Projection Model of Intuitionistic Fuzzy Multiple Attribution Decision Making about Preventive Maintenance Modes in RCMAAnalytical Target Cascading Based on the Quadratic Exterior Penalty Method for Complex System Design; The Simulation of the Ship Production Design Process Based on Hierarchical Timed Petri Net; Intelligent Irrigation System Reliability Simulation; Determination of the Critical Plane under the Multiaxial Complex Loading; Research of the Thought and Method in Function Reserving Design Based on Individuation Degree Evaluation Optimal Design of the Large-Diameter Spinning Torispherical Head |
| Record Nr. | UNINA-9910813732903321 |
| Stafa-Zurich, Switzerland ; ; Enfield, NH : , : Trans Tech Publications, , [2012] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advances in product family and product platform design : methods & applications / / Timothy W. Simpson [and three others], editors
| Advances in product family and product platform design : methods & applications / / Timothy W. Simpson [and three others], editors |
| Edizione | [1st ed. 2014.] |
| Pubbl/distr/stampa | New York : , : Springer, , 2014 |
| Descrizione fisica | 1 online resource (xviii, 819 pages) : illustrations (some color) |
| Disciplina | 658.5752 |
| Collana | Gale eBooks |
| Soggetto topico | Product design |
| ISBN | 1-4614-7937-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Preface -- 1. Recent Advancements in Product Family Design and Platform-based Product Development -- Part I: Platform Planning and Strategy -- 2. Crafting Platform Strategy based on Anticipated Benefits and Costs -- 3. Multidisciplinary Domains Association in Product Family Design -- 4. Modular Function Deployment – Using Module Drivers to Impart Strategies to a Product Architecture -- 5. Emphasizing Reuse of Generic Assets through Integrated Product and Production System Development Platforms -- 6. Quantifying the Relevance of Product Feature Classification in Product Family Design -- 7. Platform Valuation for Product Family Design -- Part II: Platform Architecting and Design- 8. A Pro-Active Scaling Platform Design Method Using Modularity for Product Variations -- 9. Architectural Decomposition – the role of granularity and decomposition viewpoint -- 10. Integrated Development of Modular Product Families – a Methods Toolkit -- 11. Solving the Joint Product Platform Selection and Product Family Design Problem -- 12. One-Step Continuous Product Platform Planning: Methods and Applications -- 13. Defining Modules for Platforms: An Overview of the Architecting Process -- 14. A QFD-based Optimization Method for Scalable Product Platform -- 15. Managing Design Processes of Product Families by Modularization and Simulation -- Part III: Product Family Development and Implementation -- 16. Global Product Family Design: Simultaneous Optimal Design of Module Commonalization and Supply Chain Configuration -- 17. Architecture-Centric Design Approach for Multi-Disciplinary Product Development -- 18. Product Family Commonality Selection using Optimization and Interactive Visualization -- 19. Developing and Assessing Commonality Metrics for Product Families -- 20. Managing Design Processes of Product Families by Modularization and Simulation -- 21. Design Principles for Reusable Software Product Platforms -- 22. Considering Human Variability When Implementing Product Platforms -- Part IV: Applications & Case Studies -- 23. Building, Supplying, and Designing Product Families -- 24. Modular Function Deployment Applied to a Cordless Handheld Vacuum -- 25. Optimal Commonality Decisions in Multiple Ship Classes -- 26. A Heuristic Approach to Architectural Design of Software-Intensive Product Platforms -- 27. Customer Needs Based Product Family Sizing Design: The Viper Case Study -- 28. Product Family Design and Recovery for Lifecycle -- 29. Application of the Generational Variety Index: A Retrospective Study of iPhone Evolution -- 30. Designing a Lawn and Landscape Blower Family Using Pro-Active Platform Design Approach -- Epilogue -- Index. |
| Record Nr. | UNINA-9910299741803321 |
| New York : , : Springer, , 2014 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advances in simulation, product design and development : proceedings of AIMTDR 2021 / / edited by P. K. Jain [and three others]
| Advances in simulation, product design and development : proceedings of AIMTDR 2021 / / edited by P. K. Jain [and three others] |
| Pubbl/distr/stampa | Singapore : , : Springer, , [2023] |
| Descrizione fisica | 1 online resource (366 pages) |
| Disciplina | 745.2 |
| Collana | Lecture Notes in Mechanical Engineering |
| Soggetto topico | Product design |
| ISBN | 981-19-4556-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910627261903321 |
| Singapore : , : Springer, , [2023] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Applications of computational methods in manufacturing and product design : select proceedings of IPDIMS 2020 / / B. B. V. L. Deepak [and three others], editors
| Applications of computational methods in manufacturing and product design : select proceedings of IPDIMS 2020 / / B. B. V. L. Deepak [and three others], editors |
| Pubbl/distr/stampa | Singapore : , : Springer Nature Singapore Pte Ltd., , [2022] |
| Descrizione fisica | 1 online resource (663 pages) |
| Disciplina | 670 |
| Collana | Lecture notes in mechanical engineering |
| Soggetto topico |
Production engineering - Data processing
Manufacturing processes - Data processing Product design |
| ISBN | 981-19-0296-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910568301203321 |
| Singapore : , : Springer Nature Singapore Pte Ltd., , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Complex Product Development Model : techincal foundation : holistic model composed of detailed explanations for developing products containing a mix of mechanics, electronics, and programs / / Christer Sandahl
| Complex Product Development Model : techincal foundation : holistic model composed of detailed explanations for developing products containing a mix of mechanics, electronics, and programs / / Christer Sandahl |
| Autore | Sandahl Christer |
| Pubbl/distr/stampa | Anchorage, Alaska : , : Publication Consultants, , [2017] |
| Descrizione fisica | 1 online resource (863 pages) |
| Disciplina | 658.5752 |
| Soggetto topico | Product design |
| ISBN | 91-984195-1-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Title Page -- Dedication -- Copyright -- Brief table of contents -- Detailed table of contents -- Chapter 1: Thank mentors -- 1.1 My technical mentors -- 1.2 The author -- Chapter 2: Reveal background -- 2.1 What has gone wrong? -- 2.2 Mastering complexity -- 2.3 How can I help you? -- Chapter 3: Explain book -- 3.1 Why another book about this? -- 3.2 Organization of this book -- Chapter 4: Start development -- 4.1 About start development -- 4.2 Study strategy -- 4.3 Study concepts -- 4.4 Plan portfolio -- 4.5 Study business -- 4.6 Prototype details -- 4.7 Research market -- 4.8 Plan products -- 4.9 Capture staffing & -- requirements -- 4.10 Predetermine solutions & -- suppliers -- 4.11 Design architectures -- 4.12 Finalize design & -- requisites -- 4.13 Realize & -- integrate white-box -- 4.14 Verify black- & -- white-box -- 4.15 Validate prototype -- 4.16 Promote campaigns -- 4.17 Launch product -- 4.18 Prepare manufacturing -- 4.19 Finalize product -- Chapter 5: Identify value chain -- 5.1 About value chain -- 5.2 Different ways to illustrate a value chain? -- 5.3 Elaborate concurrence in a value chain -- 5.4 Value chain roles -- 5.5 Document value chain by a process -- Chapter 6: Utilize processes -- 6.1 About processes -- 6.2 Process schedule constituents -- 6.3 Partition, variant, terms, and govern -- 6.4 Symbols used throughout this book -- 6.5 Cpdm process -- 6.6 P. Cpdm generic development schedule -- 6.7 Pt:1. Cpdm generic elementary technical schedule -- 6.8 Pt:2. Cpdm generic advanced technical schedule -- 6.9 Pt:2. Cpdm generic advanced technical schedule -- 6.10 Pt:2. Cpdm generic advanced technical schedule -- 6.11 Pt:2.0. Map environment and develop interfaces to the environment -- 6.12 Pt:2.n. Develop outermost black-/white-box and each inward embedded black-/white-box.
6.13 EXAMPLE: Tailored process overall schedules -- 6.14 Schedules seen as programs -- 6.15 Some other process models -- Chapter 7: Capture staffing & -- requirements -- 7.1 About requirements -- 7.2 About explore restrictions -- 7.3 About environment staffing allocation -- 7.4 EXAMPLE House environment: Explore environment restrictions and ensure environment staffing -- 7.5 About black-box requirements -- 7.6 About development staffing -- 7.7 EXAMPLE House: Refine house requirements from environment restriction requirements, and ensure house development staffing -- 7.8 Requirements refinement hierarchy -- 7.9 EXAMPLE House rooms: Refine room requirements from house requirements, and ensure room development staffing -- 7.10 EXAMPLE House rooms machinery: Refine machinery requirements from rooms requirements and ensure machinery development staffing -- 7.11 Restriction requirements -- 7.12 Behavior requirements -- 7.13 Requirements refinement and relation to architecture -- 7.14 EXAMPLE Multiplication toy environment: Explore environment restrictions and ensure environment staffing -- 7.15 EXAMPLE Multiplication toy: Refine product requirements from environment restriction requirements and ensure black-/white-box development staffing -- 7.16 Use-case behavior requirements -- 7.17 Requirements formalism -- 7.18 Formal use-case requirements -- 7.19 Scenario behavior requirements -- 7.20 Wait-state-machine -- 7.21 EXAMPLE Calc_logic environment (the pocket calculator firmware): Explore environment restrictions and ensure environment staffing -- 7.22 EXAMPLE Calc_logic environment (the Windows calculator application): Explore environment restrictions and ensure environment staffing -- 7.23 EXAMPLE Calc_logic for reuse: Refine product requirements from environment restriction requirements and ensure black-/white-box development staffing. 7.24 EXAMPLE Formal and complete requirements for calculator -- 7.25 Uncorrelated stimuli on different interfaces -- 7.26 Capturing data structures -- 7.27 EXAMPLE Phonebook environment: Explore environment restrictions and ensure environment staffing -- 7.28 EXAMPLE Phonebook: Refine product requirements from environment restriction requirements and ensure black-/white-box development staffing -- 7.29 Huge networks of scenarios -- 7.30 Road maps -- 7.31 Frequently asked questions about requirements -- Chapter 8: Predetermine solutions & -- suppliers -- 8.1 About predetermine solutions & -- suppliers -- 8.2 Demarcate product by environment solutions with possible supplier opportunities (environment nesting level = 0) -- 8.3 EXAMPLE House environment: Demarcate product by environment solutions with possible supplier opportunities -- 8.4 Predetermine solutions with sourcing options (nesting levels n ≥ 1) -- 8.5 EXAMPLE House: Predetermine solutions with sourcing options -- 8.6 EXAMPLE House rooms: Predetermine solutions with sourcing options -- 8.7 EXAMPLE House rooms machinery: Predetermine solutions with sourcing options -- 8.8 EXAMPLE Multiplication toy environment: Demarcate product by environment solutions with possible supplier opportunities -- 8.9 EXAMPLE Multiplication toy: Predetermine solutions with sourcing options -- 8.10 EXAMPLE Calc_logic environment (the pocket calculator firmware): Demarcate product by environment solutions with possible supplier opportunities -- 8.11 EXAMPLE Calc_logic environment (the Windows calculator application): Demarcate product by environment solutions with possible supplier opportunities -- 8.12 EXAMPLE Calc_logic for reuse: Predetermine solutions with sourcing options -- 8.13 EXAMPLE Phonebook environment: Demarcate product by environment solutions with possible supplier opportunities. 8.14 EXAMPLE Phonebook: Predetermine solutions with sourcing options -- Chapter 9: Design architectures -- 9.1 About architecture -- 9.2 EXAMPLE House environment: Constitute environment architecture -- 9.3 Architecture white-box -- 9.4 Architecture interfaces -- 9.5 Transforming requirements into architecture ingredients -- 9.6 EXAMPLE House: Satisfy house requirements by decomposing house black-box into white-box design containing room black-boxes -- 9.7 EXAMPLE House rooms: Satisfy room requirements by decomposing room black-boxes into white-box design containing machinery black-boxes -- 9.8 EXAMPLE House rooms machinery: Satisfy machinery requirements by decomposing machinery black-boxes into white-box design not containing black-boxes -- 9.9 Managed interfaces -- 9.10 Illustrate interactions between elements -- 9.11 EXAMPLE Multiplication toy environment: Constitute environment architecture -- 9.12 EXAMPLE Multiplication toy commonalities: Satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.13 EXAMPLE Hard-wired multiplier: Further satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.14 EXAMPLE: Typical microcontroller architecture -- 9.15 Low-level programs -- 9.16 EXAMPLE Microcontroller multiplier: Further satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.17 Multi-threads and interrupts -- 9.18 Usage of threads -- 9.19 EXAMPLE: Architecture ID numbering used throughout this book -- 9.20 EXAMPLE Calc_logic environment (the pocket calculator firmware): Constitute environment architecture -- 9.21 EXAMPLE Central Processing Unit (CPU) -- 9.22 High-level program architecture. 9.23 EXAMPLE Calc_logic environment (the Windows calculator application): Constitute environment architecture -- 9.24 EXAMPLE Calc_logic for reuse: Satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.25 Object-oriented program architecture -- 9.26 EXAMPLE Phonebook environment: Constitute environment architecture -- 9.27 EXAMPLE Phonebook: Satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.28 Large architecture documentation -- Chapter 10: Finalize design & -- requisites -- 10.1 About finalize design & -- requisites -- 10.2 About finalize design items -- 10.3 About finalize product requisites -- 10.4 EXAMPLE: House kitchen machinery: Finalize design of machinery with product requisites -- 10.5 EXAMPLE House rooms: Finalize design of rooms with product requisites -- 10.6 EXAMPLE House: Finalize design of house with product requisites -- 10.7 EXAMPLE House environment: Finalize design of environment interfaces with product requisites -- 10.8 EXAMPLE Specifics for multiplication toy commonalities: Finalize design items of product white-box with product requisites -- 10.9 EXAMPLE Specifics for multiplication toy environment commonalities: Finalize design of environment interfaces with product requisites -- 10.10 EXAMPLE Specifics for multiplication toy with hard-wired multiplier: Finalize design items of product white-box with product requisites -- 10.11 EXAMPLE Multiplication toy environment (hard-wired multiplier variant): Finalize design of environment interfaces with product requisites -- 10.12 Enter into computer programs -- 10.13 Machine program -- 10.14 Assembler programs. 10.15 EXAMPLE Specifics for multiplication toy with microcontroller multiplier: Finalize design items of product white-box with product requisites. |
| Record Nr. | UNINA-9910795534903321 |
Sandahl Christer
|
||
| Anchorage, Alaska : , : Publication Consultants, , [2017] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Complex Product Development Model : techincal foundation : holistic model composed of detailed explanations for developing products containing a mix of mechanics, electronics, and programs / / Christer Sandahl
| Complex Product Development Model : techincal foundation : holistic model composed of detailed explanations for developing products containing a mix of mechanics, electronics, and programs / / Christer Sandahl |
| Autore | Sandahl Christer |
| Pubbl/distr/stampa | Anchorage, Alaska : , : Publication Consultants, , [2017] |
| Descrizione fisica | 1 online resource (863 pages) |
| Disciplina | 658.5752 |
| Soggetto topico | Product design |
| ISBN | 91-984195-1-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Title Page -- Dedication -- Copyright -- Brief table of contents -- Detailed table of contents -- Chapter 1: Thank mentors -- 1.1 My technical mentors -- 1.2 The author -- Chapter 2: Reveal background -- 2.1 What has gone wrong? -- 2.2 Mastering complexity -- 2.3 How can I help you? -- Chapter 3: Explain book -- 3.1 Why another book about this? -- 3.2 Organization of this book -- Chapter 4: Start development -- 4.1 About start development -- 4.2 Study strategy -- 4.3 Study concepts -- 4.4 Plan portfolio -- 4.5 Study business -- 4.6 Prototype details -- 4.7 Research market -- 4.8 Plan products -- 4.9 Capture staffing & -- requirements -- 4.10 Predetermine solutions & -- suppliers -- 4.11 Design architectures -- 4.12 Finalize design & -- requisites -- 4.13 Realize & -- integrate white-box -- 4.14 Verify black- & -- white-box -- 4.15 Validate prototype -- 4.16 Promote campaigns -- 4.17 Launch product -- 4.18 Prepare manufacturing -- 4.19 Finalize product -- Chapter 5: Identify value chain -- 5.1 About value chain -- 5.2 Different ways to illustrate a value chain? -- 5.3 Elaborate concurrence in a value chain -- 5.4 Value chain roles -- 5.5 Document value chain by a process -- Chapter 6: Utilize processes -- 6.1 About processes -- 6.2 Process schedule constituents -- 6.3 Partition, variant, terms, and govern -- 6.4 Symbols used throughout this book -- 6.5 Cpdm process -- 6.6 P. Cpdm generic development schedule -- 6.7 Pt:1. Cpdm generic elementary technical schedule -- 6.8 Pt:2. Cpdm generic advanced technical schedule -- 6.9 Pt:2. Cpdm generic advanced technical schedule -- 6.10 Pt:2. Cpdm generic advanced technical schedule -- 6.11 Pt:2.0. Map environment and develop interfaces to the environment -- 6.12 Pt:2.n. Develop outermost black-/white-box and each inward embedded black-/white-box.
6.13 EXAMPLE: Tailored process overall schedules -- 6.14 Schedules seen as programs -- 6.15 Some other process models -- Chapter 7: Capture staffing & -- requirements -- 7.1 About requirements -- 7.2 About explore restrictions -- 7.3 About environment staffing allocation -- 7.4 EXAMPLE House environment: Explore environment restrictions and ensure environment staffing -- 7.5 About black-box requirements -- 7.6 About development staffing -- 7.7 EXAMPLE House: Refine house requirements from environment restriction requirements, and ensure house development staffing -- 7.8 Requirements refinement hierarchy -- 7.9 EXAMPLE House rooms: Refine room requirements from house requirements, and ensure room development staffing -- 7.10 EXAMPLE House rooms machinery: Refine machinery requirements from rooms requirements and ensure machinery development staffing -- 7.11 Restriction requirements -- 7.12 Behavior requirements -- 7.13 Requirements refinement and relation to architecture -- 7.14 EXAMPLE Multiplication toy environment: Explore environment restrictions and ensure environment staffing -- 7.15 EXAMPLE Multiplication toy: Refine product requirements from environment restriction requirements and ensure black-/white-box development staffing -- 7.16 Use-case behavior requirements -- 7.17 Requirements formalism -- 7.18 Formal use-case requirements -- 7.19 Scenario behavior requirements -- 7.20 Wait-state-machine -- 7.21 EXAMPLE Calc_logic environment (the pocket calculator firmware): Explore environment restrictions and ensure environment staffing -- 7.22 EXAMPLE Calc_logic environment (the Windows calculator application): Explore environment restrictions and ensure environment staffing -- 7.23 EXAMPLE Calc_logic for reuse: Refine product requirements from environment restriction requirements and ensure black-/white-box development staffing. 7.24 EXAMPLE Formal and complete requirements for calculator -- 7.25 Uncorrelated stimuli on different interfaces -- 7.26 Capturing data structures -- 7.27 EXAMPLE Phonebook environment: Explore environment restrictions and ensure environment staffing -- 7.28 EXAMPLE Phonebook: Refine product requirements from environment restriction requirements and ensure black-/white-box development staffing -- 7.29 Huge networks of scenarios -- 7.30 Road maps -- 7.31 Frequently asked questions about requirements -- Chapter 8: Predetermine solutions & -- suppliers -- 8.1 About predetermine solutions & -- suppliers -- 8.2 Demarcate product by environment solutions with possible supplier opportunities (environment nesting level = 0) -- 8.3 EXAMPLE House environment: Demarcate product by environment solutions with possible supplier opportunities -- 8.4 Predetermine solutions with sourcing options (nesting levels n ≥ 1) -- 8.5 EXAMPLE House: Predetermine solutions with sourcing options -- 8.6 EXAMPLE House rooms: Predetermine solutions with sourcing options -- 8.7 EXAMPLE House rooms machinery: Predetermine solutions with sourcing options -- 8.8 EXAMPLE Multiplication toy environment: Demarcate product by environment solutions with possible supplier opportunities -- 8.9 EXAMPLE Multiplication toy: Predetermine solutions with sourcing options -- 8.10 EXAMPLE Calc_logic environment (the pocket calculator firmware): Demarcate product by environment solutions with possible supplier opportunities -- 8.11 EXAMPLE Calc_logic environment (the Windows calculator application): Demarcate product by environment solutions with possible supplier opportunities -- 8.12 EXAMPLE Calc_logic for reuse: Predetermine solutions with sourcing options -- 8.13 EXAMPLE Phonebook environment: Demarcate product by environment solutions with possible supplier opportunities. 8.14 EXAMPLE Phonebook: Predetermine solutions with sourcing options -- Chapter 9: Design architectures -- 9.1 About architecture -- 9.2 EXAMPLE House environment: Constitute environment architecture -- 9.3 Architecture white-box -- 9.4 Architecture interfaces -- 9.5 Transforming requirements into architecture ingredients -- 9.6 EXAMPLE House: Satisfy house requirements by decomposing house black-box into white-box design containing room black-boxes -- 9.7 EXAMPLE House rooms: Satisfy room requirements by decomposing room black-boxes into white-box design containing machinery black-boxes -- 9.8 EXAMPLE House rooms machinery: Satisfy machinery requirements by decomposing machinery black-boxes into white-box design not containing black-boxes -- 9.9 Managed interfaces -- 9.10 Illustrate interactions between elements -- 9.11 EXAMPLE Multiplication toy environment: Constitute environment architecture -- 9.12 EXAMPLE Multiplication toy commonalities: Satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.13 EXAMPLE Hard-wired multiplier: Further satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.14 EXAMPLE: Typical microcontroller architecture -- 9.15 Low-level programs -- 9.16 EXAMPLE Microcontroller multiplier: Further satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.17 Multi-threads and interrupts -- 9.18 Usage of threads -- 9.19 EXAMPLE: Architecture ID numbering used throughout this book -- 9.20 EXAMPLE Calc_logic environment (the pocket calculator firmware): Constitute environment architecture -- 9.21 EXAMPLE Central Processing Unit (CPU) -- 9.22 High-level program architecture. 9.23 EXAMPLE Calc_logic environment (the Windows calculator application): Constitute environment architecture -- 9.24 EXAMPLE Calc_logic for reuse: Satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.25 Object-oriented program architecture -- 9.26 EXAMPLE Phonebook environment: Constitute environment architecture -- 9.27 EXAMPLE Phonebook: Satisfy refined requirements by decomposing product black-box into white-box design containing no black-boxes -- 9.28 Large architecture documentation -- Chapter 10: Finalize design & -- requisites -- 10.1 About finalize design & -- requisites -- 10.2 About finalize design items -- 10.3 About finalize product requisites -- 10.4 EXAMPLE: House kitchen machinery: Finalize design of machinery with product requisites -- 10.5 EXAMPLE House rooms: Finalize design of rooms with product requisites -- 10.6 EXAMPLE House: Finalize design of house with product requisites -- 10.7 EXAMPLE House environment: Finalize design of environment interfaces with product requisites -- 10.8 EXAMPLE Specifics for multiplication toy commonalities: Finalize design items of product white-box with product requisites -- 10.9 EXAMPLE Specifics for multiplication toy environment commonalities: Finalize design of environment interfaces with product requisites -- 10.10 EXAMPLE Specifics for multiplication toy with hard-wired multiplier: Finalize design items of product white-box with product requisites -- 10.11 EXAMPLE Multiplication toy environment (hard-wired multiplier variant): Finalize design of environment interfaces with product requisites -- 10.12 Enter into computer programs -- 10.13 Machine program -- 10.14 Assembler programs. 10.15 EXAMPLE Specifics for multiplication toy with microcontroller multiplier: Finalize design items of product white-box with product requisites. |
| Record Nr. | UNINA-9910824123603321 |
|
Sandahl Christer
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| Anchorage, Alaska : , : Publication Consultants, , [2017] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Composite structures : effects of defects / / Rani Elhajjar, University of Wisconsin, Milwaukee, Wisconsin, Peter Grant, Independent Aviation & Aerospace Professional, Medford, Oregon, Cindy Ashforth, Federal Aviation Administration, Seattle, Washington
| Composite structures : effects of defects / / Rani Elhajjar, University of Wisconsin, Milwaukee, Wisconsin, Peter Grant, Independent Aviation & Aerospace Professional, Medford, Oregon, Cindy Ashforth, Federal Aviation Administration, Seattle, Washington |
| Autore | Elhajjar Rani |
| Pubbl/distr/stampa | Hoboken, NJ : , : Wiley, , 2019 |
| Descrizione fisica | 1 online resource (237 pages) |
| Disciplina | 624.1/8 |
| Soggetto topico |
Composite construction
Composite materials - Testing Product design |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-118-99773-5
1-118-99771-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Characteristics of composites -- Design methodology and regulatory requirements -- Material, manufacturing and service defects -- Inspection methods -- Effects of defects - design values and statistical considerations -- Selected case studies in effects of defects. |
| Record Nr. | UNINA-9910467531903321 |
|
Elhajjar Rani
|
||
| Hoboken, NJ : , : Wiley, , 2019 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Soggetto topico
-
Product design
(104)
- Industrial design (18)
- New products (10)
- Product management (8)
- Production engineering (7)