Course detail
Project Management of Innovation
FEKT-MPC-PRIAcad. year: 2022/2023
Projects. Innovations. SW and expert systems support. Associations(EU, USA).
Plan, realisation, coordination, range, time, cost, quality, people, communication, risks. Aim, purpose, outputs, activities, resources, control, check, presentation of results. SW support for PM.
TRIZ - Analysis:
Product or process analyses: components, structure, functions, parameters. Localisation of harmful effetcs. Significant tasks formulation. What to change after analyses?
Causal chain of functions. Check of validity. Rank of functions. Diagnosis. Why to change?
Technology development trends. Directions for innnovation. Costs and function relation. Methods for solving technology problems.
TRIZ-Synthesis:
Solving of technical contradiction by recommended heuristics.
Solving of physical contradicktion by recommended separators.
Conflict model and recommended model solutions.
Technical function and natural sciences effects.
Expert system Invention Machine, Goldfire Innovator, TechOptimizer.
Verification of proposed solving variants in comparation with www pages and world patent databases. Semantic search technology.
Language of instruction
Czech
Number of ECTS credits
5
Mode of study
Not applicable.
Guarantor
Learning outcomes of the course unit
Course offers knowledge and abilities development needed for planning, designing and control of changes generally and technical innovation in concrete.
Absolvent is able to describe and explain:
- inovative project (target, aim, outputs, activity, resources),
- each analytical steps (compononets, structure, functions, parameters, costs, innovation task),
- typical inventive task (technical contradicktion, physical contradiction, substance or field conflicts, technical function),
- recommendation for finding of solutins (heuristics, separation, solution patterns, scientific effects).
Absolvent is able to use: analysis of object, synthesis of innnovative solution, search of relevant information and knowledgefor problem solving.
Absolvent is able to create: report describing solution of a project.
Absolvent is able to describe and explain:
- inovative project (target, aim, outputs, activity, resources),
- each analytical steps (compononets, structure, functions, parameters, costs, innovation task),
- typical inventive task (technical contradicktion, physical contradiction, substance or field conflicts, technical function),
- recommendation for finding of solutins (heuristics, separation, solution patterns, scientific effects).
Absolvent is able to use: analysis of object, synthesis of innnovative solution, search of relevant information and knowledgefor problem solving.
Absolvent is able to create: report describing solution of a project.
Prerequisites
Student who will book this course should to know basic thinking operations (induction, deduction, abstraction, concretisation,...)
The subject knowledge on the Bachelor´s degree level is requested, accomplished semestral project SP1 and bachelor projekt (BP).
Student who will book this course should to know taks to be solved in projects (SP and DP) where topics mastered in MPRI can be utilized:
- data mining, - knowledge mining, - analysis of object to be innovated, - solution of innovative-inventive tasks, - verification of solution variants,...) and software support by Goldfire tools (analysis, synthesis, datamining, knowledge mining, patent collolections, trend analysis, semantic processor, multicriterial evaluation of variants...).
The subject knowledge on the Bachelor´s degree level is requested, accomplished semestral project SP1 and bachelor projekt (BP).
Student who will book this course should to know taks to be solved in projects (SP and DP) where topics mastered in MPRI can be utilized:
- data mining, - knowledge mining, - analysis of object to be innovated, - solution of innovative-inventive tasks, - verification of solution variants,...) and software support by Goldfire tools (analysis, synthesis, datamining, knowledge mining, patent collolections, trend analysis, semantic processor, multicriterial evaluation of variants...).
Co-requisites
Not applicable.
Planned learning activities and teaching methods
Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations.
1. Dynamic explanation of each topics in frame of lectures (L1-L13). Most of materials located in e-learning.
2. Exercising of each topics supported by Goldfire Innovator software (E2-E12).
3. Elaboration of "microproject" in frame of exercisis or outside. Presentation of TRIZ methodology application.
1. Dynamic explanation of each topics in frame of lectures (L1-L13). Most of materials located in e-learning.
2. Exercising of each topics supported by Goldfire Innovator software (E2-E12).
3. Elaboration of "microproject" in frame of exercisis or outside. Presentation of TRIZ methodology application.
Assesment methods and criteria linked to learning outcomes
Requirements for completion of a course are specified by a regulation issued by the lecturer responsible for the course and updated for every.
3. Tests:
Project management, 5 p.
Analysis of an object, 10 p.
Synthesis of inventive task, 10 b.
Report about solved project, 20 b.
Written and oral examination, 55 b.
3. Tests:
Project management, 5 p.
Analysis of an object, 10 p.
Synthesis of inventive task, 10 b.
Report about solved project, 20 b.
Written and oral examination, 55 b.
Course curriculum
1. Week: Project Management (PM) is methodical instrument for preparation and realization of changes in general, including technical innovation in the concrete. 2.-6. Week: Analysis of innovated object (decomposition, structure, functions, parameters, diagnosis, innovation tasks formulation: What and why innovate).
7.-12. Week: Synthesis of formulated inventive supported by TRIZ methodology and appropriate sw programs (Goldfire Inovator, TechOptimizer).
13. Presentation of innovative microproject.
Theory of Inventive Problem Solving - TIPS/TRIZ.
Prepartation of innovation and information. Product and process analyses: components, structure, functions, parameters. Localisation of harmful effetcs. Root Cause Effect Analysis. Significant tasks formulation. Diagnosis of components from point of view cost, problem and functionality. What and why to innovate?
Causal chain of functions. Check of validity. Rank of functions.
Trends of Enginnering Systems Evolution- TESE. Directions of innnovation. Trimming a developing procedures for products and processes.
Methods for solving technology problems. Typical tasks formulation.
Solving of technical contradictions by recommended inventive priciples.
Solving of physical contradictions by recommended separation principles.
Conflict model and recommended solution models.
Technical function and recommended natural sciences effects.
Expert system: Goldfire Innovator. Verification of proposed solving variants in comparation with state of the art - world patent databases. Semantic search technology.
Practical application of the PM during study, practice and EU programme committee.
7.-12. Week: Synthesis of formulated inventive supported by TRIZ methodology and appropriate sw programs (Goldfire Inovator, TechOptimizer).
13. Presentation of innovative microproject.
Theory of Inventive Problem Solving - TIPS/TRIZ.
Prepartation of innovation and information. Product and process analyses: components, structure, functions, parameters. Localisation of harmful effetcs. Root Cause Effect Analysis. Significant tasks formulation. Diagnosis of components from point of view cost, problem and functionality. What and why to innovate?
Causal chain of functions. Check of validity. Rank of functions.
Trends of Enginnering Systems Evolution- TESE. Directions of innnovation. Trimming a developing procedures for products and processes.
Methods for solving technology problems. Typical tasks formulation.
Solving of technical contradictions by recommended inventive priciples.
Solving of physical contradictions by recommended separation principles.
Conflict model and recommended solution models.
Technical function and recommended natural sciences effects.
Expert system: Goldfire Innovator. Verification of proposed solving variants in comparation with state of the art - world patent databases. Semantic search technology.
Practical application of the PM during study, practice and EU programme committee.
Work placements
Not applicable.
Aims
Learn, master and utilize:
- methodical and SW tools of the Project Management for planning, preparing and realization of changes in general and Theory of Inventive Problem Solving (TIPS/TRIZ) for formulation and solving of technological (product and process) innovation concretely.
- methodology TIPS/TRIZ and its software support Goldfire Innovator for analyse, synthesis, verification and data/knowledge mining.
- methodical and SW tools of the Project Management for planning, preparing and realization of changes in general and Theory of Inventive Problem Solving (TIPS/TRIZ) for formulation and solving of technological (product and process) innovation concretely.
- methodology TIPS/TRIZ and its software support Goldfire Innovator for analyse, synthesis, verification and data/knowledge mining.
Specification of controlled education, way of implementation and compensation for absences
The content and forms of instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.
Requirements for completion of a course are specified by a regulation issued by the lecturer responsible for the course and updated for every.
3. Tests:
Project management, 5 p.
TIPS/TRIZ: Analysis of an object, 10 p.
Synthesis of inventive task, 10 b.
Report about solved project, 20 b.
Written and oral examination, 55 b.
Requirements for completion of a course are specified by a regulation issued by the lecturer responsible for the course and updated for every.
3. Tests:
Project management, 5 p.
TIPS/TRIZ: Analysis of an object, 10 p.
Synthesis of inventive task, 10 b.
Report about solved project, 20 b.
Written and oral examination, 55 b.
Recommended optional programme components
Not applicable.
Prerequisites and corequisites
Not applicable.
Basic literature
Not applicable.
Recommended reading
Andrejsek, K., Beneš,J.: Metody řešení technických problémů, SNTL, 1984
Devojno, I.: Zdokonalování technických systémů metodami TRIZ, skripta VUT, Brno, 1996
Špakovský, N.: Přístupy a praxe použití OTSM-TRIZ. TRIZing Brno, 2021 (CS)
Devojno, I.: Zdokonalování technických systémů metodami TRIZ, skripta VUT, Brno, 1996
Špakovský, N.: Přístupy a praxe použití OTSM-TRIZ. TRIZing Brno, 2021 (CS)
Elearning
eLearning: currently opened course
Classification of course in study plans
- Programme MPC-SVE Master's 2 year of study, winter semester, compulsory-optional
Type of course unit
Lecture
26 hod., optionally
Teacher / Lecturer
Syllabus
Projects.Innovation. SW and expert systems support. References. Associations(EU, USA). Using for study(SP and DP), industry, committee EU.
Changes: plan, realization, koordination, range, time, cost, quality, people, communication, risks, realations. Aim, purpose, outputs, activities, resources, control, check, presentation of rersults. SW support for PM.
Product or process analyses: components, structure, functions, parameters. Localisation of harmful effetcs. Significant tasks formulation. What to change after analyses?
Causal chain of functions. Check of validity. Rank of functions. Diagnosis. Why to change?
Technology development trends. Directions for innnovation. Costs and function relation. Trimming a developing procedures for products and processes.
Methods for solving technology problems. Typical tasks formulations.
Solving of technical contradiction by recommended heuristics.
Solving of physical contradicktion by recommended separators.
Conflict model and recommended model solutions.
Technical function and natural sciences effects.
Expert system Invention Machine. Verification of proposed solving variants in comparation with www pages and world patent databases. Semantic search technology.
Praktical using of the PM during study, practice and EU programme committies.
Changes: plan, realization, koordination, range, time, cost, quality, people, communication, risks, realations. Aim, purpose, outputs, activities, resources, control, check, presentation of rersults. SW support for PM.
Product or process analyses: components, structure, functions, parameters. Localisation of harmful effetcs. Significant tasks formulation. What to change after analyses?
Causal chain of functions. Check of validity. Rank of functions. Diagnosis. Why to change?
Technology development trends. Directions for innnovation. Costs and function relation. Trimming a developing procedures for products and processes.
Methods for solving technology problems. Typical tasks formulations.
Solving of technical contradiction by recommended heuristics.
Solving of physical contradicktion by recommended separators.
Conflict model and recommended model solutions.
Technical function and natural sciences effects.
Expert system Invention Machine. Verification of proposed solving variants in comparation with www pages and world patent databases. Semantic search technology.
Praktical using of the PM during study, practice and EU programme committies.
Exercise in computer lab
26 hod., compulsory
Teacher / Lecturer
Syllabus
Project Manegement (cases, SW support). Methods for technical creative work. Psychological barriers.
Team work. Cases. Task for Microproject.
Product and process analyses (components, structure, function and its parameters, significance, ideality model, innovation task formulation).
Causal analyse of negative effect and bulding of causal chain. Trimming procedure.
Developing procedure for additional function implementing.
Technology development trends. Feature transfer between alternative systems.
TEST. Algorithm of Inventive Problem solving-ARIZ. Cases.
Technical contradiction and recommended solving heuristics.
Physical contradiction and recommended solving separators.
Material (substance and energy) conflict model analyses and standard changes for conflict solution.
Technical function and effects from natural sciences.
TEST. Presentation of Microprojet supported by SW-IM.
Presentation of Microprojects.
Team work. Cases. Task for Microproject.
Product and process analyses (components, structure, function and its parameters, significance, ideality model, innovation task formulation).
Causal analyse of negative effect and bulding of causal chain. Trimming procedure.
Developing procedure for additional function implementing.
Technology development trends. Feature transfer between alternative systems.
TEST. Algorithm of Inventive Problem solving-ARIZ. Cases.
Technical contradiction and recommended solving heuristics.
Physical contradiction and recommended solving separators.
Material (substance and energy) conflict model analyses and standard changes for conflict solution.
Technical function and effects from natural sciences.
TEST. Presentation of Microprojet supported by SW-IM.
Presentation of Microprojects.
Elearning
eLearning: currently opened course