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Table of Contents
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Systematic Innovation Partnerships with Artificial Intelligence and Information Technology Robert Nowak, Jerzy Chrząszcz, Stelian Brad |
Front Matter |
New Perspectives of TRIZ
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Mathematical Modelling and Formalization of TRIZ: Trimming for Product Design Chris Edward, Jane Labadin, Narayanan Kulathuramaiyer |
3-16 |
Improving the TRIZ Creative Engineering Methodology to Take into Account the Notion of the Value of the Idea Serge Tremblay, Mickael Gardoni |
17-28 |
VA++ - The Next Generation of Value Analysis in TRIZ Christian Iniotakis |
29-38 |
Using MBSE for Conflict Managing TRIZ on a Systems Engineering Level Tim Julitz, Manuel Löwer, Tim Katzwinkel |
39-49 |
TRIZ-Based Approach in Co-creating Virtual Story-Maps Narayanan Kulathuramaiyer, Timothy George Mintu |
50-60 |
Bridging Two Different Domains to Pair Their Inherent Problem-Solution Text Contents: Applications to Quantum Sensing and Biology Nicolas Douard, Ahmed Samet, George Giakos, Denis Cavallucci |
61-69 |
Inventive Design Solutions for the Complex Socio-technical Problems in Preserving Indigenous Symbolic Visual Communication Chu Hiang Goh, Narayanan Kulathuramaiyer |
70-85 |
Exploitation of causal relation for automatic extraction of contradiction from a domain-restricted patent corpus Daria Berdyugina, Denis Cavallucci |
86-95 |
Systems, Resources, and Systemic Development in TRIZ Hans-Gert Gräbe |
96-108 |
The Use of Publicly Available Image Search Engines to Find Solution Ideas Efficient Use of TRIZ Information Resources Jochen Wessner |
109-120 |
Open Inventive Design Method (OIDM-Triz) approach for the modeling of complex systems and the resolution of multidisciplinary contradictions. Application to the exploration of innovative solutions to deal with the climate change impacts Amadou Coulibaly, Florence Rudolf, Murielle Ory, Denis Cavallucci, Lucas Bastian, Julie Gobert |
121-134 |
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Market Impact Chain Analysis - MICA, New TRIZ Tool Jerzy Obojski |
135-144 |
Modular Ideality for Systematic Segmentation Marek Mysior |
145-153 |
Hypotheses Analysis as a Development of the System Operator Method Used in TRIZ Marek Mysior, Sebastian Koziołek |
154-162 |
AI in Systematic Innovation
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An Interactive Artificial Intelligence System for Inventive Problem-Solving Stelian Brad, Emil Ștetco |
165-177 |
Inventive principles extraction in inventive design using Artificial Intelligence methods Masih Hanifi, Hicham Chibane, Remy Houssin, Denis Cavallucci |
178-186 |
AI Based Patent Analyzer for Suggesting Solutive Actions and Graphical Triggers During Problem Solving Davide Russo, David Gervasoni |
187-197 |
Automatic TRIZ domain mapping Guillaume Guarino, Denis Cavallucci |
198-208 |
Systematic Innovations Supporting IT and AI
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Using NLP to Detect Tradeoffs in Employee Reviews Justus Schollmeyer |
209-219 |
TRIZ-Based Approach in Capturing and Managing Indigenous Innovation and Knowledge Timothy George Mintu, Narayanan Kulathuramaiyer, Franklin George, John Leong |
220-229 |
The Potential of Creative Methods for IT Project Management Monika Woźniak, Anna Boratyńska-Sala |
230-247 |
Modeling IT Systems in TRIZ Jerzy Chrząszcz, Tiziana Bertoncelli, Barbara Gronauer, Oliver Mayer, Horst T. Nähler |
248-260 |
Modeling Software in TRIZ Horst T. Nähler, Barbara Gronauer, Tiziana Bertoncelli, Hartmut Beckmann, Jerzy Chrząszcz, Oliver Mayer |
261-272 |
Integration of TRIZ Methodologies into the Digital Product Development Process Vasilii Kaliteevskii, Matvey Bryksin, Leonid Chechurin |
273-284 |
Lean and TRIZ for Improving the Maintenance Process El Ghalya Laaroussi, El Hassan Irhirane, Badr Dakkak |
285-295 |
Adoption of Artificial Intelligence in Romania: Innovative Policies to Overpass Vulnerabilities with TRIZ and Deep-Thinking Tools Marin Iuga, Stelian Brad |
296-311 |
TRIZ Applications
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Analysis of Tools Used for Implementation of a Knowledge Base Based on an Ontology for a Service Robot in a Kitchen Environment Grzegorz Kuduk, Maciej Bekas, Barbara Wąsowska, Piotr Pałka |
315-327 |
Combing TRIZ and LCA for a Better Awareness of the Sustainability of a Technical Solution Christian Spreafico, Davide Russo, Daniele Landi |
328-339 |
Eco-Design Pilot Improvement Based on TRIZ and ASIT Tools R. Benmoussa |
340-351 |
Innovation Portfolio Management: How Can TRIZ Help? Nikhil Shree Phadnis |
352-366 |
Development of an Ontology of Sustainable Eco-friendly Technologies and Products Based on the Inventive Principles of the TRIZ Theory (OntoSustIP) – Research Agenda Claudia Hentschel, Kai Hiltmann, Norbert Huber, Pavel Livotov, Horst T. Nähler, Christian M. Thurnes, Agata M. Wichowska |
367-381 |
Eco-Feasibility Study and Application of Natural Inventive Principles in Chemical Engineering Design Mas’udah Mas’udah, Pavel Livotov, Sandra Santosa, Arun Sekaran, Anang Takwanto, Agata M. Pachulska |
382-394 |
Focusing the First Phase – An Interdisciplinary Approach to Modeling an Interactive System on the Use-Case Indoor-Blind-Navigation Ken Pierre Kleemann, Nadine Schumann, Veronika Heuten, Hans-Gert Gräbe |
395-404 |
Ideal Final Result for Agriculture: Striving for Sustainability Valery Korotchenya |
405-416 |
Analyzing the Role of Human Capital in Strengthening National Innovation System Through University-Industry Research Collaboration: A TRIZ-Based Approach Abeda Muhammad Iqbal, Narayanan Kulathuramaiyer, Adnan Shahid Khan, Johari Abdullah |
417-428 |
TRIZ-Based Remodeling of Body Enclosure for Corpse Ashley Soosay, Muhammad Hamdi Mahmood, Mohd Saiful Bahari, Narayanan Kulathuramaiyer |
429-439 |
TRIZ Education and Ecosystem
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WTSP Report (5) Catalogs of TRIZ and Around-TRIZ Sites in the World: We Can Learn Full Scope of TRIZ-Related Works in the World Toru Nakagawa, Darrell Mann, Michael Orloff, Simon Dewulf, Simon Litvin, Valeri Souchkov |
443-457 |
TRIZ Training Within a Continuous Improvement (Kaizen) Event – Exploration and Evaluation Tony Tanoyo, Jennifer Harlim |
458-469 |
TRIZ Training in Pandemic Time Malgorzata Przymusiala |
470-478 |