PART a: IDENTIFICATION OF R&D Result
PARTEA A: Identificarea rezultatului cercetării-deZvoltării (CD)
· The project team
|Advisor’s Name:Nume:||Department of Technologies and Materials|
|Expecting date of valorization plan submission:Data aşteptată pentru trimiterea planului de valorizare||20.01.2012|
· Identification of R&D activity
Identificarea activităţii de cercetare-dezvoltare (CD)
|Author of the R&D result:Autorul rezultatului CD:||Dr. Eng. Dumitru Constantin|
|Company or University:Companie sau Universitate:||UNIVERSITY OF CRAIOVA, ROMANIA|
|Sector:Domeniu:||ENG – Engineering|
|Type of the R&D result:Tipul rezultatului CD:||Information Product|
PART B: VALORISATION PLAN
Partea B: Planul de valorizare
SECTION I: Testing
SECŢIUNEA I: Testarea/încercarea
|Has the R & D result been tested?A fost testat/încercat rezultatul CD?|
The following question is replied according to the reply in question 1
Următoarea întrebare este formulată în legătură cu răspunsul la întrebarea 1
Dacă răspunsul a fost DA:
|In what mode has the result been tested?• Prototype
• Pilot Application
• Alpha/BETA testing
În ce mod a fost testat/încercat rezultatul?
• Aplicaţie Pilot
• Incercare Alpha/BETA
|1b.||Please describe and discuss the testing resultsVa rugăm să descrieţi rezultatele testate/încercate|
Dacă răspunsul a fost NU:
|Describe what type of testing does the R&D result need?Descrieţi ce tip de testare/încercare necesită rezultatul CD?|
|Detailed commentComentariu detaliat
The overall aim of the research is to develop software for mathematical modeling of management decision-making activities with highest risk in integrated robotic systems. Modeling of management empathy consists in knowing the performances of future experts and upgrading their expertise within the human-computer-machine dialogue. Therefore, the concept of management empathy has been defined and fuzzy models were built that allowed quantification of emphatic level: manager-task executer to increase the performance of human factor within the relationships trainer- trainee.
Testing and training process can continue until reaching archemic coordinates. At this archemic level the items subject to instruction through communication & learning can generate creative novelty and are highly performing as they reached the maximum empathy. In this peak of creativity, the closeness between trainer and trainee is maximum.
|1d.||What is the time needed for testing?Care este perioada de timp necesară testări?|
|Time for testing, probing and homologation is estimated to be 60 working days.|
|1e.||What is the cost needed for testing?Care este costul necesar pentru testare?|
|Costs of software product (research, design, validation) are estimated at Euro 4500. Costs related to testing, functional probing and homologation are estimated to be about 2400 Euro.|
SECTION 2: Current Stage of Development
SECŢIUNEA 2: Stadiul actual de dezvoltare
|To what extent does the development team have technical resources for supporting the production of a new product? (Researchers, human resources, hardware, etc. )În ce măsură dispune echipa de resursele necesare pentru a asigura fabricarea noului produs? (Cercetători, resurse umane, hardware, etc.)|
|University of Craiova, a higher education institution with a specific structure of education, has managerial experience in scientific research performance, both fundamental and applied research in all areas, and advice and expertise.
The research team is able to complete project fully and at quality parameters proposed, with appropriate funding, within the deadline. In support of this view we submit the following points:
- Research team includes experts recognized nationally and internationally, with significant results in the software products, validated by publications and research skills in every research direction expected;
- The Faculty of Mechanical Engineering, within University of Craiova, has the existing infrastructure of equipment and software that provide a sound basis for design, testing and probing.
|What are the technical issues that need to be tackled for full deployment, if needed?Care sunt aspectele tehnice ce trebuie abordate pentru lansarea în fabricaţie, dacă sunt necesare?|
|For software product the implementation in practice will require the following steps:
- Development of design concept and requirements;
- Building the complex decisions at the level of intelligent robotic systems;
- Model verification and validation (designing the model with a high degree of validity;
- Validation of model assumptions, comparing the input / output sizes of model with those of the real system;
- Working out predictive decision making to prevent risks in the supervised intelligent robotic systems;
- Decisions modeling and physical implementation of decisions on physical schemes that reproduce in the laboratory the intelligent robotic systems;
- Building up low-risk decisions in the industrial practice
Also, over the implementation stage the installation and operating instructions of software product are completed, as well as training of decision makers.
|What additional technical resources are needed for the production of this new product?Ce resurse tehnice suplimentare sunt necesare pentru fabricarea acestui nou produs?|
|Construction and application of decision-making in intelligent robotic systems are requiring the following:
- definition of the robotic system concept;
- knowledge of operating tools;
- selection of task executers based on archemic criteria;
In order to do modeling of robotic systems, both process models and coordinator model are to be used. Decision making is quasi-synchronous with the action and is done in real time.
Based on this expert systems were developed that allowed the computer aided design and production, off-line and on-line.
For their implementation in software structure further research is still needed to be conducted by firms specializing in these areas.
|Overall assessment of the current stage of technical development.Evaluarea generală a stadiului actual de dezvoltare tehnică|
|Detailed commentComentariu detaliat
Among practical methods of decision-making the following draw attention:
In order to ensure quality decision-making in robotic systems, each model includes assumptions of archemic conception. According to this concept, every element of decision making process should be directed to the highest performance of department and its structure.
The selection of appropriate software method and correct and concise modeling of the system enable an accurate simulation where errors are minimal.
SECTION 3: Deployment
SECŢIUNEA 3: Lansarea în fabricaţie
|Define the demands for large scale production in terms ofDefiniţi cererea pentru producţia de masă în funcţie de:|
|After creating and testing the experimental model, setting-up all suppliers of materials, components and sub-assemblies necessary to manufacture the software product as well as delivery terms, then should promote the product on domestic and international markets.|
|For practical implementation of the software product, the following steps are required:
- market research activities,
- preliminary investigation activities,
- investment activities,
- training activities for operators
- commercial advertising, publicity and expertise activities.
| The estimated human resource requirements for implementation of software product will be:
- Staff for market survey,
- Investment staff,
- Staff for raining of operators and
- Staff for advertising, publicity and expertise activities.
SECTION 4: Overall Assessment
SECŢIUNEA 4: Evaluare generală
|What is you overall assessment of the technical feasibility of the research result?Care este evaluarea generală a fezabilităţii tehnice pentru rezultatul CD?|
|In intelligent robotic systems, the design documentation can be sent out transmitted directly to the assembly lines via visualization screens without working-out technological drawings and files. Thanks to the system integration of production with design information in on-line structure, the predictive decisions can be developed to prevent risks within robotic systems supervised.
Management decisions in final forms do benefit from both archemic-systemic concept and from mathematical models that are able to quantify intelligent robotic systems to its highest performance. This goal requires minimal effort and higher efficiency both in the processes and robotics systems.
Final optimal solution is fully reflecting the innovative archemic-systemic concept, if and only if the informational entropy of intelligent robotic systems is minimal under full compliance with the restrictions imposed.
The assumed risks (technical, financial) related to software product design to do mathematical modeling of for management decision-making activities with the highest risk in intelligent robotic systems, are specifically refers to the following types:
In conclusion, the project can be considered to have a low risk in technical terms.
KEYWORDS QUANTITATIVE ASSESSMENT (0-5).
Evaluare cantitativă (0-5)
Please put X as appropriate.
Vă rugăm să marcaţi cu X punctajul considerat corespunzător
|Adequacy of testing activity undertaken so farGradul de adecvare al activităţii de testare desfăşurate pănă în prezent||X|
|Adequacy and availability of technical resources of the development teamGradul de adecvare şi disponibilitatea resurselor tehnice ale echipei||X|
|Current development stageStadiul actual de dezvoltare||X|
|Overall technical feasibilityFezabilitatea tehnică generală||X|
We agree that all informations contained in this form to be made public in the project „Inter-regional cooperation for valorization of research results – INTERVALUE”, by publication on the project website: http://www.urenio.org/intervalue/.
Suntem de acord ca informaţiile cuprinse în acest formular să fie făcute publice în cadrul proiectului „Inter-regional cooperation for valorization of research results – INTERVALUE”, prin publicarea lor pe site-ul proiectului, la adresa: http://www.urenio.org/intervalue/.