Multi-Criteria Decision Models in Software Reliability
portes grátis
Multi-Criteria Decision Models in Software Reliability
Methods and Applications
Linh, Nguyen Thi Dieu; Mishra, Ashish; Pinto, Carla M. A.; Bhardwaj, Manish
Taylor & Francis Ltd
11/2022
304
Dura
Inglês
9780367408824
15 a 20 dias
Descrição não disponível.
1. Enhancing Software Reliability by Evaluating Prediction Accuracy of CBF Algorithm Using Machine Learning. 2. Significance of Machine Learning and Deep Learning in Development of Artificial Intelligence. 3. Implication of Soft Computing and Machine Learning Method for Software Quality, Defect and Model Prediction. 4. Ambiguity Based on Working and Functionality in Deployed Software from Client Side in Prototype SDLC Model Scenario. 5. Selection of Software Programmer Using Fuzzy MCDM Technique in Software Engineering Scenario. 6. Implementing Multi-Criteria Decision-Making to Detect Potential Onset of Heart Disease. 7. State-of-the-Art Literature Review on Classification of Software Reliability Models. 8. Survey on Software Reliability Modelling and Quality Improvement Techniques. 9. Multi-Criteria Decision Management for Software Vulnerabilities Analysis. 10. On a Safety Evaluation of Artificial Intelligence-Based Systems to Software Reliability. 11. Study and Estimation of Existing Software Quality Models to Predict the Reliability of Component-Based Software. 12. Performance of Multi-Criteria Decision-Making Model in Software Engineering - A Survey. 13. Optimization Software Development Plan. 14. A Time-Variant Software Stability Model For Error Detection. 15. Software Vulnerability Analysis.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
MCDM;Multi-Criteria Decision Models;COTS;Commercial off-the-shelf;Bug Preiction;Fuzzy Sets;Simple Multi-attribute Rating Technique;Fuzzy TOPSIS Approach;TOPSIS Technique;Fuzzy MCDM Approach;Fuzzy TOPSIS;Fuzzy Analytic Hierarchy Process;Software Reliability;MCDM Method;Fuzzy AHP;Data Sets;Cot;NHPP Model;TOPSIS Method;Software Vulnerabilities;Random Forest;Execution Time;Imperfect Debugging;FAHP Technique;Multi-Criteria Decision Making;Interval Valued Intuitionist Fuzzy Sets;Scour Depth;Fuzzy TOPSIS Method;FAHP Method;SRMs;SDLC Model
1. Enhancing Software Reliability by Evaluating Prediction Accuracy of CBF Algorithm Using Machine Learning. 2. Significance of Machine Learning and Deep Learning in Development of Artificial Intelligence. 3. Implication of Soft Computing and Machine Learning Method for Software Quality, Defect and Model Prediction. 4. Ambiguity Based on Working and Functionality in Deployed Software from Client Side in Prototype SDLC Model Scenario. 5. Selection of Software Programmer Using Fuzzy MCDM Technique in Software Engineering Scenario. 6. Implementing Multi-Criteria Decision-Making to Detect Potential Onset of Heart Disease. 7. State-of-the-Art Literature Review on Classification of Software Reliability Models. 8. Survey on Software Reliability Modelling and Quality Improvement Techniques. 9. Multi-Criteria Decision Management for Software Vulnerabilities Analysis. 10. On a Safety Evaluation of Artificial Intelligence-Based Systems to Software Reliability. 11. Study and Estimation of Existing Software Quality Models to Predict the Reliability of Component-Based Software. 12. Performance of Multi-Criteria Decision-Making Model in Software Engineering - A Survey. 13. Optimization Software Development Plan. 14. A Time-Variant Software Stability Model For Error Detection. 15. Software Vulnerability Analysis.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
MCDM;Multi-Criteria Decision Models;COTS;Commercial off-the-shelf;Bug Preiction;Fuzzy Sets;Simple Multi-attribute Rating Technique;Fuzzy TOPSIS Approach;TOPSIS Technique;Fuzzy MCDM Approach;Fuzzy TOPSIS;Fuzzy Analytic Hierarchy Process;Software Reliability;MCDM Method;Fuzzy AHP;Data Sets;Cot;NHPP Model;TOPSIS Method;Software Vulnerabilities;Random Forest;Execution Time;Imperfect Debugging;FAHP Technique;Multi-Criteria Decision Making;Interval Valued Intuitionist Fuzzy Sets;Scour Depth;Fuzzy TOPSIS Method;FAHP Method;SRMs;SDLC Model
