• Name                                               : Surapati Pramanik, Ph. D. 
• Affiliation: Department of Mathematics,
  Nandalal Ghosh B.T. College,
  Panpur, P.O.-Narayanpur,
  Dist-North 24 Parganas, West Bengal, India-743126

• Post held                                 : Assistant Professor
• Dt of Joining                          : 13^th September 2006
• Educational Qualification    :  Ph. D. (Mathematics), Ph. D. (Education)  M. Sc. (Mathematics), M.Ed.

Ph.D. Topic                              : Fuzzy and Intuitionistic Fuzzy Goal Programming                                                     

• Date of Birth                          : 29^th day of December, 1971
• Contact Address
• Email                                             : sura_pati@yahoo.co.in; surapati.math@gmail.com                  
• Mobile                                     : +91-9477035544
• Permanent Address                : Vill – Dubapara, P.O. – Kazipara, Dist – Murshidabad,                                                                             West Bengal, India, Pin - 742306.                                         
• Languages  Known                         : Bengali, English                                                         
• Professional Courses Done    : B. Ed., M. Ed.                     
  1. Professional Courses Continuing  :  Nil     
• Field of Specialization                      :   Operations Research, Mathematics Education, 

                                                             Comparative Education, Neutrosophic and Hybrid Neutrosophic Decision

                                                            Making                       

• Teaching Experience                        :13 years         

• ResearcherID: Q-2768-2015

             ResearcherID:F-8878-2018 ( current)

• ORCID ID:  htpp://orcid.org/0000-0002-8167-7026

• Scopus Author ID: 14831724300
  

• Web of Science ResearcherID : S-3463-2019
• Web of Science: https://publons.com/researcher/1582409/dr-surapati-pramanik/
  • LiveDNA Profile: https://livedna.org/91.20275

[1].             Published books: 7

[2].             Published Editorial Books: 02

[3].             Published book Chapters: 24

[4].             Published Papers International, National Journals: 126

[5].             Papers Presented in International, National, and  State Level Seminar, Conferences, Congress :  (22+19+ 36= 77)        

[6].             Paper presented at Regional Science and Technology Congress, West Bengal, India: 13  

[7].             Participated in International, National, and  State Level Seminar, Conferences, Congress  :  16

[8].             Participated in  National level and state Level workshop: 10                                                              

Published Papers and chapters: 150 (https://scholar.google.com/citations?user=vLGVDYgAAAAJ)

Google Scholar

Citations: 3881
h-index:    33
i10-index: 102

Editor-in-Chief: American Journal of Business and Operations Research: http://americaspg.com/journals/show/1

Editorial Board Member of International Journals

Editorial Board Member of International Journals

1.  Journal of New Theory (Area Editor). ISSN: 2149-1402  http://www.newtheory.org/editorial.html.
2. International Journal of Scientific and Management Studies (IJSRMS) ISSN:2349-3771 http://www.ijsrms.com/editorial-board/index.html.
3.  International Journal of Mathematics Trends and Technology – IJMTT. ID: SSRGJ-IJMTT-1166 ISSN : 2231- 5373. http://www.ijmttjournal.org/.
4. American Journal of Science and Technology. ISSN: 2375-3846 . http://www.aascit.org/journal/editorial?journalId=902..
5. Global Journal of Research and Review. http://www.imedpub.com/global-journal-of-research-and-review/editors.php
6. Global Journal of Mathematics (Section Editor): publisher: The Global Publishing Corporation (GPC). ISSN: 2395-4760.  http://gpcpublishing.org/index.php/gjm/about/editorialTeam

1.  International Journal of Systems Science and Applied Mathematics (http://www.ijssam.org/editorialboard): publisher: Science Publishing Group: ISSN Print:  2575-5838 ISSN Online:  2575-5803
2. International Journal of Mathematics and Computer Research.  https://ijmcr.in/index.php/ijmcr/ebm. ISSN: 2320-7167
3. International Journal of Scientific Research in Mathematical and Statistical Sciences (IJSRMSS).  ISSN (Online): 2348-4519.

https://www.isroset.org/journal/IJSRMSS/edu_board.php

1. SCIREA Journal of Computer

https://www.scirea.org/journal/EditorialBoard?JournalID=52000

11.  Engineering and Technology Journal. Everant Publisher Pvt Ltd. http://everant.org/index.php/etj/Ebm

12.  International Journal of Neutrosophic Science : http://americaspg.com/journals/show/21

13.  Current Chinese Science: Artificial Intelligence and Robotics". http://currentchinesescience.com/editorial-board.php

Performed as a reviewer:

1. Omega. Publisher: Elsevier
2. Applied Soft Computing. Publisher: Elsevier
3. Computers in Industry. Publisher: Elsevier
4. Cognitive Systems Research. Publisher: Elsevier
5. Fuzzy Information and Engineering. Publisher: Elsevier
6. Engineering Applications of Artificial Intelligence. Publisher: Elsevier
7. Neural Computing and Applications Publisher: Springer
8. Soft Computing. Publisher: Springer
9. Computational and Applied Mathematics. Publisher: Springer

10.  Industrial and Engineering International. Publisher: Springer

11.  International Journal of Applied and Computational Mathematics. Publisher: Springer

12.  Journal of Ambient Intelligence and Humanized Computing. Publisher: Springer

13.  International Journal of Information Technology & Decision Making Publisher:  World Scientific Publishing Co.

14.  International Journal of Systems Science. Publisher: Taylor and Francis

15.  Soft Computing and Automation Journal. Publisher: Taylor and Francis

16.  International Journal of Distributed Sensor Networks. Publisher:  Sage Publishing

17.  IEEE Access. Publisher: Institute of Electrical and Electronics Engineers Inc. (IEEE)

18.  Filomat. Publisher:  Universitet of Nis

19.  Current Chinese Computer Science (CCCS): Bentham Science Publishers.

20.  PLOS One. Publisher: Public Library of Science( PLOS)

21.  Information. Publisher: MDPI

22.  Mathematical Problem in Engineering. Publisher:  Hindawi 

23.  Discrete Dynamics in Nature and Society. Publisher:  Hindawi

24.  Applied Mathematics and Information Sciences: Publisher: Natural Sciences Publishing Corporation

25.  Annals of Fuzzy Mathematics and Informatics (AFMI): publisher: Kyung Moon Sa Co

26.  Neutrosophic Sets and Systems: Publisher: University of New Mexico

27.  Intelligent Automation and Soft Computing (Autosoft Journal)

28.  RAIRO-Operations Research

29.  Iranian Journal of Fuzzy Systems (IJFS) ijfs.usb.ac.ir/

30.  Journal of Applied Mathematics & Information Sciences.

Associated with:

[1]. Indian Institute of Engineering Science and Technology (IIEST), Shibpur, - Ph. D. Guide in Mathematics

[2].  Jadavpur University- Ph. D. Guide in Mathematics.

[3]. Operational Research Society of India (Senior life Member:1360/S/03/ML)

[4]. Indian Statistical Institute, Kolkata (Life Member: L/8267)

[5]. Calcutta Mathematical Society, Kolkata (Life Member)

[6]. Centre for Mathematical Biology and Ecology, Jadavpur university (Life Member)

[7]. All India Association for Educational Research (Life membership no:3558)

[8]. Indian Association for Teacher Educators (Life Membership no: S399)

[9]. Global Educational Research Association (Life Membership no: 91000556)

[10].      Netaji Subhas Foundation (life Member)

[11].      International Society for Development and Sustainability (ISDS), Japan.  Membership ID: M007518.

[12].      The Association of Mathematics Teachers of India, Chennai:I19052

[13].      Ramanujan Society of Mathematics and Mathematical Sciences. Membership no. RSMAMS/52/12.

[14].      SAS Society: Membership ID: SAS/ LMSASS/121

Membership

[1]. IAENG membership number is: 249590

[2]. Universal Association of Arts and Management Professionals (Fellow Student Member category).  Membership ID is SM101000602379.

Supervision of research (Ph. D.) in mathematics”: 5  candidates received  Ph. D. Award.

1. Partha Pratim Dey

Title of the thesis: Some studies on linear and non-linear bi-level programming problems in fuzzy environment.  (Awarded on 08/04/2015) by Jadavpur University                          

2. Durga Banerjee

Title of the thesis: Some studies on decision making in an uncertain environment. (Awarded on 08/09/2017)by Jadavpur University.
3. Pranab Biswas

Title of the thesis: Multi attribute decision making in neutrosophic environment.(Awarded on 20/02/2018) Jadavpur University
4. Shyamal Dalpati

 Title of the thesis: “Some Studies on Neutrosophic Decision Making”. (Awarded on 02/04/2019) by  Indian Institute of Engineering Science and Technology, Shibpur

5. Kalyan Mondal: Title of the thesis: Some Decision Making Models Based on Neutrosophic Strategy. (Awarded on 02/05/2019) Jadavpur University

Best Paper Awards/Outstanding paper in Seminar/Conference/Congress (06) :

1. Pramanik, S., Guha, D. (2019). A comparative study on secondary mathematics curricula of India and the United States.   26th West Bengal State Science & Technology Congress held on 28th February -1st March, 2019, Science City, Kolkata organized by Department of Science and technology and Biotechnology Government of West Bengal. ( Presented by Surapati Pramanik)
2. Mondal, K., Pramanik, S., & Giri, B. C.  (2018). Neutrosophic number contra-harmonic aggregation operators for multi-criteria group decision making. 25^th West Bengal State Science and Technology Congress held on 4^th and 5^th March, 2018 at the Science City, Kolkata organized by Department of  Higher Education, Science and technology and Biotechnology Government of West Bengal ( Presented by Kalyan Mondal).
3. Saha, M., & Pramanik, S. (2013). Deshbhag shimante basabashkari kishore-kishoreeder bipathe chalita korchhe: 20th West Bengal State Science & Technology Congress held on 28th February-2nd March, 2013, Bengal Engineering and Science University, Shibpur.
4. Dey, P.P., & Pramanik, S. (2011). Fuzzy goal programming for multilevel linear fractional programming problems: 18th West Bengal State Science & Technology Congress held on 28th February -1st March, 2011, Ramakrishna Mission Residential College, Narendrapur, Kolkata 700 103.
5. Saha, M., & Pramanik, S. (2010). A study on life style education in secondary school in West Bengal: 17th West Bengal State Science & Technology Congress held on 4-5 March, 2010, West Bengal University of Animal and Fishery Sciences, Kolkata.
6. Pramanik, S., Chakrabarti, S., & Roy, T.K. (2008). Goal programming approach to bilevel programming in an intuitionistic fuzzy environment, Presented at 15th West Bengal State Science & Technology Congress held on 28th February-29th February, 2008, Bengal Engineering and Science University, Shibpur. (Presented by Sourendranath Chakrabarti in Mathematics).

Outstanding paper award in Regional Science Congress in West Bengal

1. Pramanik, S. (2019). Multi Level Decentralized Linear Programming Problem in Neutrosophic Number environment.  Presented at 4^th Regional Science and Technology Congress ( Southern region) 2019 held at Moulana Abul Kalam Azad University of Technology (MAKAUT) organized by Department of Science & Technology and Bio-Technology, Government of West Bengal & Moulana Abul Kalam Azad University of Technology (MAKAUT) held on December 23-24, 2019.
2. Pramanik, S., & Guha, D. (2018). A comparative study on secondary mathematics curricula of India and the United States. Presented at 3^rd  Regional Science and Technology Congress, 2018 Southern Region, 18^th and 19^th December 2018 organized by Bidhannagar College Government of West Bengal jointly with Department of Science and Technology and Biotechnology, Government of West Bengal. (Presented by S. Pramanik).

1. Mondal, K., Pramanik, S., & Giri, B. C.  (2017). Neutrosophic number contra-harmonic aggregation operators for multi-criteria group decision making. Presented at the 2^nd Regional Science and Technology Congress (Southern Region), 2017 (2^nd  RSTC(SR), 2017) jointly organized by the University of Kalyani (K.U.) and Department of Higher Education, Science and Technology and Biotechnology (DHESTBT), Government of West Bengal during December 14-15, 2017 at University of Kalyani, Nadia-741235. (Presented by K. Mondal)

1. Biswas, P., Pramanik, S., & Giri, B. C.  (2017). Students’ progress reports evaluation based on fuzzy hybrid vector similarity measure. Presented at the 2^nd Regional Science and Technology Congress (Southern Region), 2017 (2^ND RSTC(SR), 2017) jointly organized by the University of Kalyani (K.U.) and Department of Higher Education, Science and Technology and Biotechnology (DHESTBT), Government of West Bengal during December 14-15, 2017 at University of Kalyani, Nadia-741235. (Presented by P. Biswas).

1. Mondal, K., Pramanik, S., & Giri, B. C.  (2016). Interval-valued neutrosophic tangent similarity measure and its application in money investment decision making problems. Presented at 1^st Regional Science and Technology Congress, 2016, Presidency Division, jointly organized by the Department of Science and Technology, Government of West Bengal in collaboration with National Institute of Technical Teachers’ Training & Research (NITTTR), Kolkata). (Presented by K. Mondal).

1. Pramanik, S., Dalapati, S., & Roy, T. K. (2016). Logistics Center location selection approach based on neutrosophic multi-criteria decision making. . Presented at 1^st Regional Science and Technology Congress, 2016, Presidency Division, jointly organized by the Department of Science and Technology, Government of West Bengal in collaboration with National Institute of Technical Teachers’ Training & Research (NITTTR), Kolkata). (Presented by S. Dalapati).

Published Books of  Surapati Pramanik: 07.

[1]. Pramanik, S. (2016). গণিতশিক্ষণেরআধুনিককৌশল. Pedagogy of mathematics teaching)., Kolkata: Aaheli Publishers. ISBN: 81-89169-35-1.

[2].  Panda. M. & Pramanik, S. (2016). শিক্ষার্থীওশিখনপদ্ধতিরঅনুধাবন. Understanding the learner & learning process. Kolkata:Aaheli Publishers.. ISBN:81-89169-54-8.

[3].  Pramanik, S.  (2014). আধুনিকগণিতশিখনওশিক্ষণ.  Adhunik ganit shikhan o sikhsan. Kolkata: Aaheli Publishers. ISBN: 81-89169-73-4.

[4]. Pramanik, S., Sen, S., Dev, N., & Mandal, A. (2014). শিক্ষণেপ্রযুক্তিবিজ্ঞান. Technology of teaching. Kolkata: Aaheli Publishers. ISBN: 81-89169-35-1.

[5].  Pramanik, S., Mukherjee, M., Mandal, A., Biswas, S. K. Saha, M., & Majundar, D. (2014). সমাজবিদ্যাশিক্ষণেরবিষয়বস্তুওপদ্ধতিগতকৌশল(Samajvidya shikshaner bishay bastu o padhatigata koishal (Content-cum methodology of teaching social studies.) Aaheli Publishers, Kolkata. ISBN:81-89169-42-4.

[6]. Pramanik, S., Mukherjee, M., Adok, C., Sen, S., & Saha, M. (2014). ভারতবর্ষেশিক্ষা(Education in India). Kolkata: Aaheli Publishers. ISBN:81-89169-13-0.

[7]. Pal, S., Chand, B., Pramanik, S., Sen, S., Ganguly, A., Mondal, A.,… Kar, R. (2014). Shikhaker Karjabali (Functions of teacher). Kolkata: Aaheli Publishers. ISBN:81-89169-57-2.

Editorial Books : 02

1. Smarandache, F. & Pramanik, S. (Eds). (2018). New trends in neutrosophic theory and applications, Vol.2.  Brussels: Pons Editions. DOI:

1. Smarandache, F. & Pramanik, S. (Eds). (2016). New trends in neutrosophic theory and applications.                   Brussels: Pons Editions.

Book Chapters: 24

24. Mondal, K., & Pramanik, S. (2020). Decision making for logistics center location selection in trapezoidal neutrosophic environment. In F. Smarandache, & Broumi, S. (Eds.), Neutrosophic theories in communication, management and information technology (pp.239-260). NewYork. Nova Science Publishers.   23. Pramanik, S. (2020). Rough neutrosophic set: an overview. In F. Smarandache, & Broumi, S. (Eds.), Neutrosophic theories in communication, management and information technology (pp.275-311). NewYork. Nova Science Publishers.   22. Mondal, K., Pramanik, S., & Giri, B. C.  (2020). Some similarity measures for MADM under a complex neutrosophic set environment. In F. Smarandache, & M. A. Basset (Eds.), Optimization theory based on neutrosophic and plithogenic sets (pp 97-116). Elsevier.  Academic Press. https://doi.org/10.1016/B978-0-12-819670-0.00005-6 21. Roy, R., Pramanik, S., & Roy, T. K. (2020). Interval rough neutrosophic TOPSIS strategy for multi-attribute decision making. In M. Abdel-Basset, & F. Smarandache (Eds.), Neutrosophic Sets in Decision Analysis and Operations Research (pp. 98-118). Hershey, PA: IGI Global. doi:10.4018/978-1-7998-2555-5.ch005 20. Pramanik, S., & Mallick, R. (2020). Extended GRA-Based MADM strategy with single-valued trapezoidal neutrosophic numbers. In M. Abdel-Basset, & F. Smarandache (Eds.), Neutrosophic Sets in Decision Analysis and Operations Research (pp. 150-179). Hershey, PA: IGI Global. doi:10.4018/978-1-7998-2555-5.ch008 19. Biswas, P., Pramanik, S., & Giri, B. C. (2019). Neutrosophic TOPSIS with group decision making. In C. Kahraman & I.  Otay (Eds.), Fuzzy multicriteria decision making using neutrosophic sets, studies in fuzziness and soft computing 369. doi. https://doi.org/10.1007/978-3-030-00045-5_21. 18. Mondal, K., Pramanik, S., & Giri, B. C.  (2019). Rough neutrosophic aggregation operators for multi-criteria decision-making. In C. Kahraman & I.  Otay (Eds.), Fuzzy multicriteria decision making using neutrosophic sets, studies in fuzziness and soft computing 369 https://doi.org/10.1007/978-3-030-00045-5_5. 17. Pramanik, s., & Guha, D. (2019). A comparative study on development of secondary mathematics curricula of India and China. In M. Chakrabarti ( Ed.) , Cognizance: The new vistas of education & psychology ( pp. 140-149). Kolkata: Paschimbanga Anchalik Itihas O Loksanskriti Charcha Kendra ( PAIOLCK). 16. Pramanik, S., Dalapati, S., & Roy, T. K. (2016). Neutrosophic multi-attribute group decision making strategy for logistics center location selection. In F. Smarandache, M. A. Basset, & V. Chang (Eds), Neutrosophic operational research volume III, (pp.13-32). Brussels: Pons asbl. 15. Pramanik, S., Roy, R., S., & Roy, T. K, (2016). Teacher selection strategy based on bidirectional projection measure in neutrosophic number environment. In F. Smarandache, M. A. Basset, & V. Chang (Eds), Neutrosophic operational research volume II, (pp.29-53), Brussels: Pons asbl. 14. Broumi, S., Bakali, A., Talea, M., Smarandache, F., Uluçay, V., Sahin, S., Dey, A., Dhar, M., Tan, R. P., de Oliveira, A., & Pramanik, S. (2018).Neutrosophic sets: An overview. In F. Smarandache, & S. Pramanik (Eds., vol.2), New trends in neutrosophic theory and applications (pp. 403-434). Brussels: Pons Editions. 13. Pramanik, S., Roy, R., & Roy, T. K.  (2018). Multi criteria decision making based on projection and bidirectional projection measures of rough neutrosophic sets.  In F. Smarandache, & S. Pramanik (Eds., vol.2), New trends in neutrosophic theory and applications (pp. 175-187). Brussels: Pons Editions. 12. Pramanik, S., Dey, P. P., & Giri, B. C.  (2018). Hybrid vector similarity measure of single valued refined neutrosophic sets to multi-attribute decision making problems.  In F. Smarandache, & S. Pramanik (Eds., vol.2), New trends in neutrosophic theory and applications (pp. 156-174). Brussels: Pons Editions. 11. Pramanik, S., Dalapati, S., Alam, S & Roy, T. K. (2018). TODIM method for group decision making under bipolar neutrosophic set environment.  In F. Smarandache, & S. Pramanik (Eds., vol.2), New trends in neutrosophic theory and applications (pp. 140-155). Brussels: Pons Editions. 10. Mondal, K., Pramanik, S., & Giri, B. C.  (2018). Multi-criteria group decision making based on linguistic refined neutrosophic strategy. In F. Smarandache, & S. Pramanik (Eds., vol.2), New trends in neutrosophic theory and applications (pp. 125-139). Brussels: Pons Editions. 9. Biswas, P., Pramanik, S., & Giri, B. C. (2018). Multi-attribute group decision making based on expected value of neutrosophic trapezoidal numbers. In F. Smarandache, & S. Pramanik (Eds., vol.2), New trends in neutrosophic theory and applications (pp. 103-124). Brussels: Pons Editions. 8. Pramanik, S., Banerjee, D., & Giri, B.C. (2016). TOPSIS approach for multi attribute group decision making in refined neutrosophic environment. In F. Smarandache, & S. Pramanik (Eds.), New trends in neutrosophic theory and applications (pp. 79-91). Brussels: Pons Editions. 7. Pramanik, S., Dalapati, S., & Roy, T. K, (2016). Logistics center location selection approach based on neutrosophic multi-criteria decision making. In F. Smarandache, & S. Pramanik (Eds.),New trends in neutrosophic theory and applications (pp. 161-174). Brussels: Pons Editions. 6. Mondal, K., Pramanik, S., & Smarandache, F. (2016). Several trigonometric Hamming similarity measures of rough neutrosophic sets and their applications in decision making. In F. Smarandache, & S. Pramanik (Eds.), New trends in neutrosophic theory and application (pp. 93-103). Brussels, Belgium: Pons Editions. 5. Dey, P.P., S. Pramanik, & Giri, B.C. (2016). TOPSIS for solving multi-attribute decision making problems under bi-polar neutrosophic environment. In F. Smarandache, & S. Pramanik (Eds.), New trends in neutrosophic theory and applications (pp. 65-77). Brussels: Pons Editions. 4. Dey, P.P., S. Pramanik, & Giri, B.C. (2016). Extended projection-based models for solving multiple attribute decision making problems with interval –valued neutrosophic information. In F. Smarandache, & S. Pramanik (Eds), New trends in neutrosophic theory and applications (pp. 127-140). Brussels: Pons Editions. 3. Biswas, P., Pramanik, S., & Giri, B. C. (2016). GRA method of multiple attribute decision  making with single valued neutrosophic hesitant fuzzy set information. In F. Smarandache, & S. Pramanik (Eds.), New trends in neutrosophic theory and applications (pp. 55-63). Brussels: Pons Editions. 2. Biswas, P., Pramanik, S., & Giri, B. C. (2016). Some distance measures of single valued neutrosophic hesitant fuzzy sets and their applications to multiple attribute decision making. In F. Smarandache, & S. Pramanik (Eds.), New trends in neutrosophic theory and applications (pp. pp. 27-34). Brussels: Pons Editions. 1. Mondal, K., Pramanik, S., & Smarandache, F. (2016). Role of neutrosophic logic in data mining. In F. Smarandache, & S. Pramanik (Eds.), New trends in neutrosophic theory and application (pp. 15-23). Brussels, Belgium: Pons Editions.

All Published papers: 126

126. Maiti, I., Mandal, T., & Pramanik, S. (2020). FGP approach based on Stanojevic’s normalization technique for multi-level multi-objective linear fractional programming problem with fuzzy parameters. Recent Advances in Intelligent Information Systems and Applied Mathematics, 863, 392-402.

125. Mallick, R., & Pramanik, S. (2019).  Interval trapezoidal neutrosophic number VIKOR strategy for multi attribute decision making. Mathematical Science for Advancement of Science and Technology, 8, 129-133

124. Maiti, I., Mandal, T., & Pramanik, S. (2019). Neutrosophic goal programming strategy for multi‑level multi‑objective linear programming problem. Journal of Ambient Intelligence and Humanized Computing. doi:10.1007/s12652-019-01482-0. IF: 1.91. Science Citation Index Expanded.

123.  Pramanik, S. & Dey, P. P. (2019). Multi-level linear programming problem with neutrosophic numbers: A goal programming strategy. Neutrosophic Sets and System, 29, 242-254.

122. Pramanik, S., & Guha, d. (2019). Level of performances in International Mathematics Olympiad of China, USA & India: The current scenario. International Research Journal of Management Sociology & Humanities, 10(4), 463-473.

121. Biswas, P., Pramanik, S., & Giri, B. C. (2019). Non-linear programming approach for single-valued neutrosophic TOPSIS method. New Mathematics and Natural Computation, 15 (2), 307-326  doi: 10.1142/S1793005719500169. SCOPUS INDEXED.

120. Biswas, P., Pramanik, S., & Giri, B. C. (2019). NH-MADM strategy in neutrosophic hesitant fuzzy set environment based on extended GRA. Informatica, 30 (2), 1–30.  DOI: http://dx.doi.org/10.15388/Informatica.2019.204.  Science Citation Index Expanded

119.  Pramanik, S., & Mallick, R.(2019). TODIM strategy for multi-attribute group decision making in trapezoidal neutrosophic number environment. Complex & Intelligent Systems, 5 (4), 379–389 https://doi.org/10.1007/s40747-019-0110.

118.  Guha, D., & Pramanik, S. (2019). A comparative study on philosophy of mathematics education in China, and India. Sanshodhan Chetana, 8 (1), 69-86.

117. Pramanik, S., & Mallick, R. (2018). VIKOR based MAGDM strategy with trapezoidal neutrosophic numbers.  Neutrosophic Sets and Systems, 22, 118-130. 10.5281/zenodo.2160840

116. Pramanik, S., & Guha, D.(2018). Professional development of secondary mathematics teachers in India and China: a comparative study. Sanshodhan Chetana, 7 (3) 97-110.

115. Pramanik, S., & Dey, P.P. (2018). Bi-level linear programming problem with neutrosophic numbers. Neutrosophic Sets and Systems, 21, 110-121. https://doi.org/10.5281/zenodo.1408669

114. Pramanik, S., & Dalapati, S.(2018). A revisit to NC-VIKOR based MAGDM strategy in neutrosophic cubic set environment. Neutrosophic Sets and Systems, 21, 131-141.https://doi.org/10.5281/zenodo.1408665

113. Pramanik, S., Banerjee, D. (2018). Neutrosophic number goal programming for multi-objective linear programming problem in neutrosophic number environment. MOJ Current Research & Review, 1(3), 135-141.doi:10.15406/mojcrr.2018.01.00021

112. Banerjee, D. Pramanik, S (2018). Single-objective linear goal programming problem with neutrosophic numbers. International Journal of Engineering Science & Research Technology, 7(5), 454-469.

111. Pramanik, S., Mallick, R., & Dasgupta, A. (2018). Contributions of selected Indian researchers to multi-attribute decision making in neutrosophic environment. Neutrosophic Sets and Systems, 20, 108-131. http://doi.org/10.5281/zenodo.1284870

110.  Pramanik, S., Dalapati, S., Alam, S & Roy, T.K. (2018). NC-VIKOR based MAGDM strategy under neutrosophic cubic set environment. Neutrosophic Sets and Systems,20, 95-108.http://doi.org/10.5281/zenodo.1235367

109. Mondal, K., Pramanik, S., & Giri, B. C.  (2018). Single valued neutrosophic hyperbolic sine similarity measure based MADM strategy.  Neutrosophic Sets and Systems, 20, 3-11.http://doi.org/10.5281/zenodo.1235383

108. Mondal, K., Pramanik, S., & Giri, B. C. (2018). Hybrid binary logarithm similarity measure for MAGDM problems under SVNS assessments.  Neutrosophic Sets and Systems, 20, 12-25.http://doi.org/10.5281/zenodo.1235365

107.  Pramanik, S., Maiti, I., & Mandal, T. (2018). A Taylor series based fuzzy mathematical approach for multi objective linear fractional programming problem with fuzzy parameters. International Journal of Computer Applications, 180(45), 22-29.

106. Pramanik, S., Roy, R., Roy, T. K., & Smarandache, F.  (2018).  Multi-attribute decision making based on several trigonometric Hamming similarity measures under interval rough neutrosophic environment. Neutrosophic Sets and Systems,19, 110-118. http://doi.org/10.5281/zenodo.1235207

105. Pramanik, S., Roy, R., & Roy, T. K.  (2018). Multi criteria decision making based on projection and bidirectional projection measures of rough neutrosophic sets.  Neutrosophic Sets and Systems, 19,101-109.http://doi.org/10.5281/zenodo.1235211

104. Pramanik, S., Dey, P.P., & Smarandache, F. (2018).   Correlation coefficient measures of interval bipolar neutrosophic sets for solving multi-attribute decision making problems. Neutrosophic Sets and Systems, 19,70-79.http://doi.org/10.5281/zenodo.1235151

103. Pramanik, S., Dalapati, S., Alam, S & Roy, T.K. (2018).   VIKOR based MAGDM strategy under bipolar neutrosophic set environment Neutrosophic Sets and Systems, 19, 57-69. http://doi.org/10.5281/zenodo.1235341

102. Mondal, K., Pramanik, S., & Giri, B. C.  (2018). Interval neutrosophic tangent similarity measure based MADM strategy and its application to MADM problems.  Neutrosophic Sets and Systems, 19, 47-56.http://doi.org/10.5281/zenodo.1235201

101. Biswas, P., Pramanik, S., & Giri, B. C. (2018). Distance measure based MADM strategy with interval trapezoidal neutrosophic numbers. Neutrosophic Sets and Systems, 19, 40-46.

100. Biswas, P., Pramanik, S., & Giri, B. C. (2018). TOPSIS strategy for multi-attribute decision making with trapezoidal neutrosophic numbers, Neutrosophic Sets and Systems,19, 29-39.  http://doi.org/10.5281/zenodo.1235335

99. Pramanik, S., Dalapati, S., Alam, S., Smarandache, S., & Roy, T.K. (2018). NC-cross entropy based MADM strategy in neutrosophic cubic set environment. Mathematics, 6 (5), 67. https://doi.org/10.3390/math6050067.

98. Pramanik, S., Dalapati, S., Alam, S., Smarandache, S., & Roy, T.K. (2018). NS-cross entropy based MAGDM under single valued neutrosophic set environment. Information, 9(2), 37; doi:10.3390/info9020037.

97. Mondal, K., Pramanik, S., & Smarandache, F. NN-harmonic mean aggregation operators-based MCGDM strategy in a neutrosophic number environment. Axioms 2018, 7, 12; doi:10.3390/axioms7010012

96. Dalapati, S., Pramanik, S., Alam, S., Smarandache, S., & Roy, T.K. (2017).  IN-cross entropy based magdm strategy under interval neutrosophic set environment. Neutrosophic Sets and Systems, 18,   43-57. http://doi.org/10.5281/zenodo.1175162

95. Pramanik, S., Dalapati, S., Alam, S. & Roy, T.K. (2017). NC-TODIM-based MAGDM under a neutrosophic cubic set environment. Information, 8, 149. doi:10.3390/info8040149.

94.Pramanik, S., Dalapati, S, Alam, S., & Roy, T. K. (2017). Some operations and properties of neutrosophic cubic soft set. Global Journal of Research and Review,4(2), 1-8. doi: 10.21767/2393-8854.100014.

93. Pramanik, S., Roy, R., Roy, T. K. & Smarandache, F. (2017). Multi criteria decision making using correlation coefficient under rough neutrosophic environment. Neutrosophic Sets and Systems,17, 29-36.

92. Pramanik, S., Dalapati, S, Alam, S., & Roy, T. K. (2017).Neutrosophic cubic MCGDM method based on similarity measure. Neutrosophic Sets and Systems,16, 44-56.

91. Pramanik, S., Dey, P. P., Giri, B. C., & Smarandache, F. (2017). Bipolar neutrosophic projection based models for solving multi-attribute decision making problems. Neutrosophic Sets and Systems, 15, 70-79.

90. Banerjee, D., Giri, B. C., Pramanik, S., & Smarandache, F. (2017). GRA for multi attribute decision making in neutrosophic cubic set environment. Neutrosophic Sets & Systems, 15, 60-69.

89. Mondal, K., Pramanik, S. & Smarandache, F. (2016). Rough neutrosophic TOPSIS for multi-attribute group decision making. Neutrosophic Sets and Systems, 13, 105-117. doi.org/10.5281/zenodo.570845

88. Mondal, K., Pramanik, S. & Smarandache, F. (2016). Multi-attribute decision making based on rough neutrosophic variational coefficient similarity measure. Neutrosophic Sets and Systems,13, 3-17.

87. Pramanik, S. (2016). Neutrosophic multi-objective linear programming. Global Journal of Engineering Science and Research Management, 3(8), 36-46.

85.  Biswas, P, Pramanik, S.  & Giri, B.C. (2016). Value and ambiguity index based ranking method of single-valued trapezoidal neutrosophic numbers and its application to multi-attribute decision making. Neutrosophic Sets and Systems, 12, 127-138.

84.  Pramanik, S. (2016). Neutrosophic linear goal programming. Global Journal of Engineering Science and Research Management, 3(7), 01-11.

83. Pramanik, S. & Mondal, K. (2016). Rough bipolar neutrosophic set. Global Journal of Engineering Science and Research Management, 3(6), 71-81.

82. Pramanik, S., Banerjee, D., & Giri, B.C. (2016). TOPSIS approach to chance constrained multi - objective multi- level quadratic programming problem. Global Journal of Engineering Science and Research Management, 3(6), 19-36.

81. Pramanik, S., Banerjee, D., & Giri, B.C. (2016). Multi – criteria group decision making model in neutrosophic refined set and its application. Global Journal of Engineering Science and Research Management,3(6), 12-18.

80. Pramanik, S., & Dalapati, S. (2016). GRA based multi criteria decision making in generalized neutrosophic soft set environment. Global Journal of Engineering Science and Research Management, 3(5), 153-169.

79. Dey, P. P., Pramanik, S. & Giri, B. C. (2016). Neutrosophic soft multi-attribute group decision making based on grey relational analysis method. Journal of New Results in Science, 10, 25-37.

78. Dey, P. P., Pramanik, S. & Giri, B. C. (2016). An extended grey relational analysis based multiple attribute decision making in interval neutrosophic uncertain linguistic setting. Neutrosophic Sets and Systems, 11, 21-30.  doi.org/10.5281/zenodo.571228

77. Dey, P. P., Pramanik, S. & Giri, B. C. (2016). Neutrosophic soft multi-attribute decision making based on grey relational projection method. Neutrosophic Sets and Systems, 11, 98-106.doi.org/10.5281/zenodo.571576

76. Banerjee, D., Mondal, K., & Pramanik, S. (2016). Fuzzy goal programming approach for soil allocation problem in brick-fields-a case study. Global Journal of Engineering Science and Research Management, 3(3), 1-16.

75. Dey, P. P., Pramanik, S. & Giri, B. C.  (2015). Multi-criteria group decision making in intuitionistic fuzzy environment based on grey relational analysis for weaver selection in Khadi institution. Journal of Applied and Quantitative Methods, 10(4), 1-14.

74. Mondal, K., & Pramanik, S. (2015). Neutrosophic refined similarity measure based on tangent function and its application to multi attribute decision making. Journal of New Theory, 8, 41-50.

73. Mondal, K., & Pramanik, S. (2015). Tri-complex rough neutrosophic similarity measure and its application in multi-attribute decision making. Critical Review, 11, 26-40.

72. Dey, P. P., Pramanik, S. & Giri, B. C.  (2015). Generalized neutrosophic soft multi-attribute group decision making based on TOPSIS. Critical Review, 11, 41-55.

71. Pramanik, S., Biswas, P., & Giri, B. C.  (2015). Hybrid vector similarity measures and their applications to multi-attribute decision making under neutrosophic environment. Neural Computing and Applications, 28 (5), 1163-1176. Doi: 10.1007/s00521-015-2125-3.

70. Dey, P. P., Pramanik, S. & Giri, B. C.  (2015). An extended grey relational analysis based interval neutrosophic multi-attribute decision making for weaver selection. Journal of New Theory 9, 82-93.

69. Mondal, K. & Pramanik, S. (2015). Decision making based on some similarity measures under interval rough neutrosophic environment. Neutrosophic Sets and Systems 10, 46-57. doi.org/10.5281/zenodo.571358

68. Pramanik, S., Dey, P. P. & Giri, B. C. (2015). TOPSIS for single valued neutrosophic soft expert set based multi-attribute decision making problems. Neutrosophic Sets and Systems, 10, 88-95. doi.org/10.5281/zenodo.571238

67. Pramanik, S., & Mondal, K. (2015). Interval neutrosophic multi-attribute decision-making based on grey relational analysis. Neutrosophic Sets and Systems, 9, 13-22. doi.org/10.5281/zenodo.571413

66. Mondal, K., & Pramanik, S. (2015). Neutrosophic decision making model for clay-brick selection in construction field based on grey relational analysis. Neutrosophic Sets and Systems, 9, 64-71. doi.org/10.5281/zenodo.34864

65. Mondal, K., & Pramanik, S. (2015). Neutrosophic tangent similarity measure and its application to multiple attribute decision making. Neutrosophic Sets and Systems, 9, 80-87. doi.org/10.5281/zenodo.571578

64. Pramanik, S. (2015). Multilevel programming problems with fuzzy parameters: a fuzzy goal programming approach. International Journal of Computer Applications, 122(21), 34-41.

63. Pramanik, S., & Mondal, K. (2015). Some rough neutrosophic similarity measures and their application to multi attribute decision making. Global Journal of Engineering Science and Research Management, 2 (7), 61-74.

62. Pramanik, S., Banerjee, D., & Giri, B.C (2015). Chance constrained multi-level linear programming problem. International Journal of Computer Applications,120 (18), 01-06.

61. Pramanik, S., Banerjee, D., & Giri, B.C (2015). Multi-level multi-objective linear plus linear fractional programming problem based on FGP approach. International Journal of Innovative Science Engineering and Technology, 2 (6), 153-160.

60. S. Pramanik, and K. Mondal. (2015). Cotangent similarity measure of rough neutrosophic sets and its application to medical diagnosis. Journal of New Theory, 4, 90-102.

59. P. Biswas, S. Pramanik, B.C. Giri. (2016). TOPSIS method for multi-attribute group decision making under single-valued neutrosophic environment. Neural Computing and Applications, 27(3), 727-737. doi: 10.1007/s00521-015-1891-2.

58. Mondal, K., & Pramanik, S. (2015). Rough neutrosophic multi-attribute decision-making based on rough accuracy score function. Neutrosophic Sets and Systems 8, 16-22.

57. Pramanik, S., & Mondal, K. (2015). Weighted fuzzy similarity measure based on tangent function and its application to medical diagnosis. International Journal of Innovative Research in Science, Engineering and Technology, 4 (2), 158-164.

56. Pramanik, S., & Mondal, K. (2015). Cosine similarity measure of rough neutrosophic sets and its application in medical diagnosis. Global Journal of Advanced Research, 2(1), 212-220.

55. S. Pramanik, Durga Banerjee, B.C. Giri. (2015). Multi-objective chance constrained transportation problem with fuzzy parameters. Global Journal of Advanced Research, 2(1), 49-63.

54.  Biswas, P., Pramanik, S., & Giri, B.C. (2015). Cosine similarity measure based multi-attribute decision-making with trapezoidal fuzzy neutrosophic numbers. Neutrosophic Sets and Systems, 8, 46-56.

53.Mondal,K., Pramanik, S. (2015). Application of grey system theory in predicting the number of deaths of women by committing suicide-a case study. Journal of Applied and Quantitative Methods, 10 (1), 48-55.

52. Mondal, K., &Pramanik, S. (2015). Rough neutrosophic multi-attribute decision-making based on grey relational analysis. Neutrosophic Sets and Systems, 7, 8-17.

51. Mondal, K., &Pramanik, S. (2015). Neutrosophic decision making model of school choice. Neutrosophic Sets and Systems, 7, 62-68.

50. Mondal, K, & Pramanik, S. (2015). Intuitionistic fuzzy similarity measure based on tangent function and its application to multi-attribute decision making. Global Journal of Advanced Research, 2(2), 464-471.

49. Mondal, K., &Pramanik, S. (2015) Neutrosophic refined similarity measure based on cotangent function and its application to multi-attribute decision making. Global Journal of Advanced Research, 2(2), 486-494.

48. Mondal, K., &Pramanik, S. (2014). Multi-criteria group decision making approach for teacher recruitment in higher education under simplified neutrosophic environment. Neutrosophic Sets and Systems, 6, 28-34.

47. Mondal, K., &Pramanik, S. (2014). A Study on Problems of Hijras in West Bengal Based on Neutrosophic Cognitive Maps. Neutrosophic Sets and Systems, 5, 21-26.

46. Mondal, K., &Pramanik, S. (2014). Intuitionistic fuzzy multicriteria group decision making approach to quality-brick selection problem. Journal of Applied Quantitative Methods, 9(2), 35-50.

 45. Dey, P.P., Pramanik, S., & Giri, B.C. (2014). TOPSIS approach to linear fractional bi-level MODM problem based on fuzzy goal programming. Journal of Industrial and Engineering International, 10(4), 173-184. doi:10.1007/s40092-014-0073-7.

44. Dey, P.P., Pramanik, S., & Giri, B.C.. (2014). Multilevel fractional programming problem based on fuzzy goal programming. International Journal of Innovative Research in Technology & Science,2(4), 17-26.

43. Biswas, P, Pramanik, S.  & Giri, B.C. (2014). A study on information technology professionals’ health problem based on intuitionistic fuzzy cosine similarity measure. Swiss Journal of Statistical & Applied Mathematics, 2 (1), 44-50.

42.  Biswas, P, Pramanik, S.  & Giri, B.C. (2014). A new methodology for neutrosophic multi-attribute decision-making with unknown weight information. Neutrosophic Sets and Systems, 3, 42-50.

41 Biswas, P, Pramanik, S.  & Giri, B.C. (2014). Entropy based grey relational analysis method for multi-attribute decision making under single valued neutrosophic assessments. Neutrosophic Sets and Systems, 2, 102-110.

40. Pramanik, S., & Roy, T.K. (2014). Neutrosophic game theoretic approach to Indo-Pak conflict over Jammu-Kashmir. Neutrosophic Sets and Systems, 2, 82-101.

39. Pramanik, S., &Chackrabarti, S.N. (2013). A study on problems of construction workers in West Bengal based on neutrosophic cognitive maps. International Journal of Innovative Research in Science, Engineering and Technology, 2(11), 6387-6394.

38. Pramanik, S., & Roy, T.K. (2013). Game theoretic model to the Jammu-Kashmir conflict between India and Pakistan. International Journal of Mathematical Archive, 4(8),162-170.

37. Dey, P. P., Pramanik, S., & Giri, B.C. (2013). Fuzzy goal programming algorithm for solving bi-level multi-objective linear fractional programming problems, International Journal of Mathematical Archive, 4(8), 154-161.

36. Pramanik, S. (2013). A critical review of Vivekanada’s educational thoughts for women education based on neutrosophic logic, MS Academic, 3(1), 191-198.

35. S. Pramanik. (2012). Bilevel programming problem with fuzzy parameter: a fuzzy goal programming approach. Journal of Applied Quantitative Methods, 7(1), 09-24.

34. Pramanik, S., Banerjee, D., & Giri, B.C. (2012). Chance constrained linear plus linear fractional bi-level programming problem. International Journal of Computer Applications, 56(16), 34-39.

33. Pramanik, S., & Banerjee, D. (2012). Chance constrained quadratic bi-level programming problem. International Journal of Modern Engineering Research, 2(4), 2417-2424. htpp://www.ijmer.com/papers/Vol2_Issue4/CJ2424172423.pdf, ISSN: 2249-6645. IC Value:5:09

32. Pramanik, S., & Biswas, P. (2012). Multi-objective assignment problem with generalized trapezoidal fuzzy numbers”. International Journal of Applied Information Systems, 2(6), 13-20.

31. Banerjee, D., & Pramanik, S.  (2012). Goal programming approach to chance constrained multi-objective linear fractional programming problem based on Taylor’s series approximation. International Journal of Computers & Technology, 2(2), 77-80.

30. Banerjee, D., & Pramanik, S.  (2012). Chance Constrained multi-objective linear plus linear fractional programming problem based on Taylor’s series approximation. International Journal of Engineering Research and Development, 1(3) 55-62.

29. Pramanik, S., & Banerjee, D. (2012). Multi-objective chance constrained capacitated transportation problem based on fuzzy goal programming. International Journal of Computer Applications, 44(20), 42-46.

28. Pramanik, S., Dey, P. P., & Roy, T.K. (2012). Fuzzy goal programming approach to linear fractional bilevel decentralized programming problem based on Taylor series approximation. The Journal of Fuzzy Mathematics, 20 (1), 23-238.

27. Pramanik, S., Dey, P. P., & Roy, T.K. (2011). Bilevel programming in an intuitionistic fuzzy environment. Journal of Technology, XXXXII, 103-114

26. Pramanik, S., Dey, P. P., & Giri. B. C. (2011). Decentralized bilevel multiobjective programming problem with fuzzy parameters based on fuzzy goal programming. Bulletin of Calcutta Mathematical Society, 103 (5), 381—390.

25. Biswas, P., & Pramanik, S. (2011). Fuzzy ranking method to assignment problem with fuzzy costs. International Journal of Mathematical Archive, 2(12), 2549-2560.

24. Pramanik, S. Biswas, P. (2011). Priority based fuzzy goal programming method for solving multi-objective assignment problem with fuzzy parameters. International Journal of Mathematics and Computational Methods in Science & Technology,1(6), 14-26.

23. Pramanik, S., & Mukhopadhyaya, D. (2011). Grey relational analysis based intuitionistic fuzzy multi criteria group decision-making approach for teacher selection in higher education. International Journal of Computer Applications, 34(10), 21-29. 10.5120/4138-5985

 22. Dey, P. P., & Pramanik, S. (2011). Goal programming approach to linear fractional bilevel programming problem based on Taylor series approximation. International Journal of Pure and Applied Sciences and Technology, 6(2), 115-123.

21. Biswas, P., & Pramanik, S. (2011). Replacement problem with grey parameters. International Journal of Computer Applications, 32(9), 11-16.

20. Pramanik, S., & Dey, P.P.  (2011). Multi-objective quadratic programming problem based on fuzzy goal programming. International Journal of Pure and Applied Sciences and Technology, 6(1), 45-53.

19. Pramanik, S., & Dey, P.P.  (2011). Multi-objective linear fractional programming problem based on fuzzy goal programming. International Journal of Mathematical Archive, 2 (10) 1875-1881.

18. Pramanik, S., & Dey, P.P.  (2011). Multi-objective linear plus linear fractional programming problem based on Taylor series approximation. International Journal of Computer Applications, 32 (8), 61-68.

17. Pramanik, S., & Dey, P.P.  (2011). Quadratic bi-level programming problem based on fuzzy goal programming approach. International Journal of Software Engineering & Applications, 2(4), 41-59.

16. Biswas, P., & Pramanik, S. (2011). Fuzzy approach to replacement problem with value of money changes with time. International Journal of Computer Applications, 30 (10) 28-33.

15. Pramanik, S., & Dey, P.P.  (2011). Bi-level multi-objective programming problem with fuzzy parameters. International Journal of Computer Applications, 30 (10) 13-20.

14. Biswas, P., & Pramanik, S.  (2011). Multi-objective assignment problem with fuzzy costs for the case military affairs. International Journal of Computer Applications, 30 (10), 7-12.

13. Pramanik, S., & Dey, P.P. (2011). A priority based fuzzy goal programming to multi-objective linear fractional programming problem. International Journal of Computer Applications, 30 (10), 01-06.

12. Pramanik, S., Dey, P. P., & Giri, B.C. (2011). Fuzzy goal programming approach to quadratic bi-level multi-objective programming problem. International Journal of Computer Applications, 29 (6), 09-14.

11. Pramanik, S., & Dey, P.P.  (2011). Multi-objective quadratic programming problem: a priority based fuzzy goal programming. International Journal of Computer Applications, 26 (10), 30-35.

10. Biswas, P., & Pramanik, S. (2011). Application of fuzzy ranking method to determine the replacement time for fuzzy replacement problem. International Journal of Computer Applications, 25 (11), 41-47.

9. Pramanik, S., & Dey, P.P.  (2011). Bi-level linear fractional programming problem based on fuzzy goal programming approach. International Journal of Computer Applications, 25 (11), 34-40.

8. Pramanik, S., & Roy, T. K. (2008). Multiobjective transportation model with fuzzy parameters: a priority based fuzzy goal programming. Journal of Transportation Systems Engineering and Information Technology, 8 (3) 40-48.

7 Pramanik,  S., & Roy, T. K. (2007). Fuzzy goal programming approach to multilevel programming problems. European Journal of Operational Research, 176 (2) 1151-1166. doi:10.1016/j.ejor.2005.08.024

6. Pramanik, S., & Roy, T. K. (2007). An intuitionistic fuzzy goal programming approach for a quality control problem: a case study. Tamsui Oxford Journal of Management Sciences, 23 (3), 1-18.

5. Pramanik, S., & Roy, T. K. (2007). Intuitionist fuzzy goal programming and its application in solving multi-objective transportation problem. Tamsui Oxford Journal of Management Sciences, 23 (1), 1-17.

4. Pramanik, S., & Roy, T. K. (2006). A fuzzy goal programming technique for solving multi-objective transportation problem. Tamsui Oxford Journal of Management Sciences, 22 (1), 67-89.

3. Pramanik, S., & Roy, T. K.  (2005). An intuitionistic fuzzy goal programming approach to vector optimization problem. Notes on Intuitionistic Fuzzy Sets, 11(5), 1-14.

2. Pramanik, S., & Roy, T. K. (2005.) A goal programming procedure for solving unbalanced transportation problem having multiple fuzzy goals. Tamsui Oxford Journal of Management Sciences, 21(2), 37-52.

 1. Pramanik, S., & Roy, T. K. (2005). A fuzzy goal programming approach for multi-objective capacitated transportation problem. Tamsui Oxford Journal of Management Sciences, 21(1), 75-88.               

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International Conference/Seminar/Symposium (Presented papers): 22

23 . Maiti, I, Mandal, T., & Pramanik, S. (2019). : FGP approach based on Stanojevic’s normalization technique for  multi- level multi- objective linear fractional programming problem with fuzzy parameters. Presented at ICITAM 2019 on March 7, 2019. Presented by Indrani Maiti.

22. Pramanik, S., & Guha, D. (2019).  Contributions of selected Bengali Muslims in mathematics: a study. Presented at International Conference on “Bengali Muslims at the crossroads: possibilities and challenges” held on 16-17 November 2019 jointly organised by Department of Mass Communication, Aliah University, Kolkata,  and  Bengali Academia for Social Empowerment (BASE).

21. Pramanik, S., & Guha, D. (2019).  A comparative study development of secondary mathematics curricula of India and China. Presented at 5^th International Conference, Indian Social Sciences & Humanities Congress 2019 (SAMAGAM 19) held on 7.9. 2019 & 8. 9. 2019  at Kolkata  organized by the Paschimbanga Anchalik itihas o Loksanskriti Chjarcha Kendra IN Collaboration with Department of Library & Information Science, Jadavpur University.

20. Pramanik, S., & Guha, D. (2019).  Comparative study on contribution of women of india and China in multi-criteria decision making (MCDM) in neutrosophic environment.  Presented at International Conference on “Women and Society “held on 7^th July, 2019 organized by Department of Sociology, Nur Mohammad Smriti Mahavidyalaya, Murshidabad, West Bengal, and Department of Sociology, Raha Govind University, Ramgarh, Jharkhand.   

19. Pramanik, S., & Guha, D. (2019).  Teacher educations in the India and the USA: a comparative study. Presented at the International Seminar on “Globalization and paradigm shift in teacher education” organized by Rajendra Academy for Teachers'  Education  on March 31, 2019.

18.  Pramanik, S., & Guha, D. A comparative study on development of secondary mathematics curricula of China, India and USA. Presented at International Seminar on “Educational Renovation in Contemporary Society.”, 23 rd December, 2018, organized by Nathula Das PTTI & B. Ed. College in collaboration with University of Kalyani, Kalyani, Nadia, West Bengal, India.

17. Pramanik, S., & Das, K.(2018).  Challenges and prospects of mathematics education in India. Presented at International Level Seminar on “Quality of Teaching-Learning in Higher Education in India: Concerns & Challenges”,  August 24-25, 2018, organized by Department of Education, Bankura University, West Bengal, India .

16. Guha, D., &Pramanik, S. (2018).  Professional development of secondary mathematics teachers in India and China: A comparative study. Presented at International Level Seminar on “Quality of Teaching-Learning in Higher Education in India: Concerns & Challenges”,  August 24-25, 2018, organized by Department of Education, Bankura University, West Bengal, India.

15. Mondal, K., & Pramanik, S. (2015).. Several trigonometric hamming similarity measures of rough neutrosophic sets and their applications in decision making, presented at International Conference on non-linear Dynamics, Analysis and Optimization. (ICNDAO-2015) December 9-11, 2015, Organized by Department of Mathematics, University of Jadavpur ( presented by K. Mondal).

1. presented at International Conference on non-linear Dynamics, Analysis and Optimization. (ICNDAO-2015) December 9-11, 2015, Organized by Department of Mathematics, University of Jadavpur      (presented by P.P. Dey).

1. Biswas, P., & Pramanik.  S. (2014). Neutrosophic multi-attribute decision-making. 3^rd International Conference of Frontiers of Mathematics & Applications (ICFMA-2014) January 29-31, Organized by Department of Mathematics, Burdwan University (Presented by S. Pramanik).

12.        Biswas, P., & Pramanik. S. (2012). Medical diagnosis based on Intuitionistic fuzzy cosine similarity measure, presented at International Conference on Frontiers of Mathematical Sciences with Applications (ICFMSA – 2012) December 7 - 9, 2012, Calcutta Mathematical Society, Kolkata. (Presented by Pranab Biswas).

11.        Pramanik, S., Banerjee, D., & Giri, B. C. (2012).  Chance constrained quadratic fractional bi-level programming problem. presented at International Conference on Frontiers of Mathematical Sciences with Applications (ICFMSA – 2012) December 7 - 9, 2012, Calcutta Mathematical Society, Kolkata. (Presented by S. Pramanik).

10.        Dey, P. P., & Pramanik, S. (2012). Intuitionistic trapezoidal fuzzy multi-criteria group decision making approach based on grey relational analysis for weaver selection in Khadi institution, presented at International Conference on Frontiers of Mathematical Sciences with Applications (ICFMSA – 2012) December 7 - 9, 2012, Calcutta Mathematical Society, Kolkata. (Presented by P.P. Dey)

9.          Pramanik, S. (2012). A critical review of Vivekanada’s educational thoughts for women education based on neutrosophic logic. International Seminar on “Thoughts & Ideas of Swami Vivekananda on Education” April 18-19, 2012, Department of Education, University of Kalyani, Kalyani, Nadia, W.B., India.( Presented by S. Pramanik).

8.          Dey, P. P., & Pramanik, S. (2011). A grey relational analysis based intuitionistic fuzzy multi-attribute decision-making approach for weaver selection in khadi industry, presented at International Conference on Recent Advances in Mathematical Sciences and Applications (ICRAMSA-2011), December 09-11, 2011, Calcutta Mathematical Society, Kolkata. (Presented by Partha Pratim Dey & S. Pramanik).

7.          Pramanik, S., & Biswas, P. (2011). Intuitionistic fuzzy multicriteria group decision-making approach based on grey relational analysis for teacher selection in secondary education, presented at International Conference on Recent Advances in Mathematical Sciences and Applications (ICRAMSA-2011), December 09-11, 2011, Calcutta Mathematical Society, Kolkata. (S. Pramanik).

6.          Dey, P. P., & Pramanik, S. (2011). Quadratic bilevel multiobjective programming problem based on fuzzy goal programming approach, presented at International Conference on “Frontiers in Applied Mathematics and is Computational Aspects (ICFAM-CA-2011), Department of Applied Mathematics, University of Kolkata 15-17 March, 2011, Kolkata.( Presented by P. P. Dey &S. Pramanik).

5.          Dey, P. P., & Pramanik, S. (2010). Linear fractional multiobjective bilevel programming problem based on Taylor series approximation, presented at International Conference on recent development in mathematical sciences and their applications (ICRDMSA-2010) Calcutta Mathematical Society, December 09-11, 2010, Kolkata.( Presented by P.P.Dey & S. Pramanik).

4.          Pramanik, S.(2010). Multiobjective bilevel programming problem with fuzzy parameters: a fuzzy goal programming approach. Presented at International Conference on recent development in mathematical sciences and their applications (ICRDMSA-2010) Calcutta Mathematical Society, December 09-11, 2010, Kolkata (Presented by S. Pramanik).

3.          Pramanik, S., Chakrabarti, S.N., & Roy, T. K. (2008). Goal programming approach to bilevel programming in an intuitionistic fuzzy environment, Presented at International Symposium on “Recent Advances in Mathematics and its applications, ISRAMA 2008, Calcutta Mathematical Society, December19-21, 2008, Kolkata.                 (S. Pramanik).

2.          Pal, B. B. Jana, R. K., & Pramanik, S. (2004). The use of genetic algorithm for solving multiobjective bilevel programming problems through fuzzy goal programming. Presented at the “International Conference on Operations Research (ICOR)”, January 9-11, 2004, ISI, Kolkata. ( Presented by S.Pramanik).

1.          Pramanik, S., Moitra, B. N., & Pal, B. B. (2003). A goal programming method for fuzzy linear multiobjective bilevel programming problems. Presented at the Sixth “International Conference of the Association of Asia Pacific Operational Research Societies within IFOROS, APORS 2003, December 8-11, 2003, New Delhi. (Presented by S. Pramanik).

National Conference /Seminar/Symposium (Presented Papers): 19

19. Pramanik, S., & Guha, D. (2019). Mathematics teaching expertise development approaches and practices: A comparative study between India and China. Presented at National Seminar on “Modern Trends in Teacher Education: Challenges & Issues” on 23 February, 2019, organized by Baluchar PPTI.

18. Pramanik, S. (2018). A comparative study of math Education and math performance between China, India, and USA. Presented at National Seminar on “Need for skill and competency development in teacher education”  held on 18 November , 2018, organized by Annapurna  Memorial  College of Education, Kashinagar, Kakdwip, South 24 Parganas.   

17. S. Pramanik.(2015). Violence against women in India-current realities and strategies for change. Presented at National seminar on “Status of Women in Indian Society” organized by Centre for Women’s Studies, University of Kalyani, Kalyani, Nadia, August 21, 2015.

16. Pramanik, S. (2015). Rough neutrosophic decision-making based on accuracy score function. Presented at National seminar on “Recent advances in mathematics and its applications (RAMA-2015) held on March 12, 2015 held at and organized by the Department of Pure Mathematics, University of Calcutta, 35 Ballygange Circular Road, Kolkata-700019.

15. Pramanik, S. (2014). Neutrosophic multi-attribute decision-making with unknown weight information. Presented at National seminar on “National Seminar on Mathematical Applications (NSMA- 2014), University of Kalyani, Kalyani, Nadia, March 4-5, 2014.

14. Biswas, P., Dey, P. P., & Pramanik, S. (2014). Grey relational analysis method for single-valued neutrosophic multiple attribute decision making. Presented on National Conference on “Non-linear dynamics, analysis and optimization (NDAO- 2014)” organized by Department of Mathematics, Jadavpur university, (Under UGC-DRS Programme), Kolkata, January 9-10, 2014. (Presented by P. Biswas).

13. Biswas, P, Dey, P. P., & Pramanik, S. (2014). TOPSIS for quadratic bi-level multi-objective decision making problem based on fuzzy goal programming. Presented on National Conference on “Non-linear Dynamics, analysis and optimization (NDAO- 2014)” organized by Department of Mathematics, Jadavpur University, (Under UGC-DRS Programme), Kolkata, January 9-10, 2014. (Presented by P. P. Dey).

12. M. Saha & S. Pramanik. (2013). Instructional role of information and communication technology in constructivist learning environment. Presented on National-Level Seminar on “Modern trends in teacher education”. Organized by Durgapur Anandamoy B.Ed. College, Village – Durgapur, P.O. Kalirhat, P.S. Kotwali, District – Nadia, PIN-741184, W.B., India, 16th January 2013. (Presented by M. Saha).

11. Dey, P. P.  & Pramanik, S.. (2013). Application of grey relational analysis based multi-attribute decision-making for weaver selection in Khadi Institution with intuitionistic trapezoidal fuzzy numbers. 100 th Indian Science Congress, hosted by Calcutta University, Kolkata, 3-7 January, 2013. (Present by P.P. Dey).

10. Pramanik, S.. (2012). Grey relational analysis based intuitionistic fuzzy multi-criteria group decision-making approach for ranking self-efficacy of students for learning mathematics. Presented on UGC Sponsored National seminar “Mathematical Self Efficac “Mathematical Self Efficacy” organized by Ramakrishna Mission Sikshamandira, Belur Math in collaboration with GCM College of Education, New Barrackpore.

9. Ghosh, P., Pramanik, S. (2012). A study on the problems of preservation of local history collection in public libraries in Maynaguri block in Jalpaiguri district. Presented on National seminar organized by Moinaguri Collge, Jalpaiguri January 13-14, 2012.(Presented by Palash Ghosh).

8. Pramanik, S., & Dey, P.P. (2011). Quadratic decentralized bilevel multiobjective programming problem based on fuzzy goal programming. Presented at National seminar on “Analysis Modelling and Geometry (NSAMG 2011), University of Kalyani, Kalyani, Nadia, March 10-11, 2011.( Presented by S. Pramanik).

7.  Pramanik, S. (2011). Application of game theory methodology to Jammu-Kashmir conflict between India and Pakistan, Present in University of Gourd in 71th session in Indian History Congress, University of Gour Banga, Malda, 11-13 February 2011.

6. Pramanik, S. (2011). Decentralized bilevel multiobjective programming problem with fuzzy parameters based on fuzzy goal programming, , Presented at National Conference on Mathematics and itrs Application (NCMA 2011), Jadavpur University, 13-14 January 2011, Kolkata.

5. Dey, P. P., & Pramanik, S.. (2011). Linear fractional bilevel multiobjective decentralized programming problem based on Taylor series approximation- A fuzzy goal programming approach, Presented at National Conference on Mathematics and its Application (NCMA 2011), Jadavpur University, 13-14 January 2011, Kolkata.(( Presented by S. Pramanik).

4. Saha, M., & Pramanik, S. (2010). Evolution of examination system at secondary stage in India: Colonial Period to 21st Century. Presented at National Seminar on Policies Adopted and Practices by the Boards of Secondary Education on Various Issues: Affiliation, Admission, Recruitment, Curriculum and Examination. University of Gour Banga, December 09-10, 2010. (Presented by S. Pramanik).

3. Pramanik, S. , & Dey, P. P.  (2010). Fuzzy goal programming approach to linear fractional bilevel decentralized programming problem based on Taylor series approximation, Presented at National Seminar on “Frontier Mathematics and Applications” NSFMA-2010, Calcutta Mathematical Society, March 27-28, 2010, Kolkata. (Presented by P. P. Dey).

2. Pramanik, S. (2010). Hierarchical optimization with fuzzy-parameters: a fuzzy goal `programming approach..  Presented at National seminar “Frontier Mathematics and Applications” NSFMA-2010, Calcutta Mathematical Society, March 27-28, 2010, Kolkata.

1. Pramanik, S. (2010). Bilevel decentralized programming problem with fuzzy parameter: a fuzzy goal programming approach. Presented at National seminar on “Recent Trends in Operations Research and Its Computational Challenges” held during November 17-18, 2009 in Department of Applied Mathematics, University of Calcutta, Kolkata.


State Level Seminar (Presented Papers): 36

36. Pramanik, S. (2020). Neutrosophic set: An overview.  Presented at West Bengal Rajya Ganit Utsav-2020 on February 8-9, 2020. held at Narendrapur Ramkrishna  Mission, West Bengal, India.

35.       Pramanik, S. (2019). Vivekananda  and women education: a neutrosophic study.  Presented at  state lelel seminar on “relevance of Swami Vivekananda in the present context of education” on September 24, 2019 held at Nandalal Ghosh B.T. College, Panpur jointly organized by Nandalal Ghoish B.T. College, Panpur and Shishu Chitrakala Bhaban, Narayanpur, North 24 Parganas,  West Bengal.

34.       Pramanik, S. (2019). A comparative study on secondary mathematics curricula of India and the United States.  Presented at 26^th West Bengal State Science & Technology Congress held on 28th February-01 March, 2019, Department of Science and Technology and Biotechnology, Government of West Bengal.

1.  Mondal, K., Pramanik, S., & Giri, B. C.  (2017). Neutrosophic number contra-harmonic aggregation operators for multi-criteria group decision making. Presented at 25^th West Bengal State  Science and Technology Congress, 2017, on 4^th & 5^th  March, 2018 at the Science City, Kolkata,  organized by the Department of Higher Education, Science and Technologyand Biotechnology, Government of West Bengal. (Presented by K. Mondal)

1. Biswas, P., Pramanik, S., & Giri, B. C.  (2017). Students’ progress reports evaluation based on fuzzy hybrid vector similarity measure. Presented at 25^th West Bengal State  Science and Technology Congress, 2017,  on 4^th & 5^th  March, 2018 at the Science City, Kolkata,  organized by the Department of Higher Education, Science and Technologyand Biotechnology, Government of West Bengal. (Presented by P. Biswas).

31.       Mondal, K., Pramanik, S., & Giri, B. C.  (2017). Interval-valued neutrosophic tangent similarity measure and its application in money investment decision making problems. Presented at 24^th West Bengal State  Science and Technology Congress, 2017,  on 28^th February/1^st March, 2017 at Science City, Kolkata,  organized by the Department of Higher Education, Science and Technology and Biotechnology, Government of West Bengal. (Presented by K. Mondal).

30.       Pramanik, S., Dalapati, S., & Roy, T. K. (2017). Logistics center location selection approach based on neutrosophic multi-criteria decision making. Presented at 24^th West Bengal State  Science and Technology Congress, 2017,  on 28^th February/1^st March, 2017 at Science City, Kolkata,  organized by the Department of Higher Education, Science and Technology and Biotechnology, Government of West Bengal. (Presented by S. Dalapati).

29.       Banerjee, B., &Pramanik, S. (2015). The analysis of lesson demonstration of mathematics with respect to the objectives of knowledge, comprehension, application and skill. Presented at 22nd West Bengal State Science & Technology Congress held on 28th February-01 March, 2015, University of North Bengal. (Presented by Barsha Banerjee in Social Science).

28 .      Biswas, A., & Pramanik, S.(2015). A comparative study between the lesson plans among the selected Universities of West Bengal. Presented at 22 nd West Bengal State Science & Technology Congress held on 28th February-01 March, 2015, University of North Bengal. (Presented by Amlan Biswas in Social Science).

27.       Ghosh, A., & Pramanik, S. (2015).The problems of mathematics teacher education‐a study. Presented at 22 nd West Bengal State Science & Technology Congress held on 28th February-01 March, 2015, University of North Bengal. (Presented by Ashutosh Ghosh in Social Science).

1. 26.       Mahato, A., & Pramanik, S.(2015). Assessing the information need and information seeking behavior of B. Ed. students of Nandalal Ghosh B.T. College: A case study. Presented at 22 nd West Bengal State Science & Technology Congress held on 28th February-01 March, 2015, University of North Bengal. (Presented by Arun Mahato in Mathematics, Statistics, Computational Science and IT).

25.       Mondal, K., & Pramanik, K. (2015). Neutrosophic decision making model for clay-brick selection in construction field based on grey relational analysis. Presented at 22^nd West Bengal State Science & Technology Congress held on 28th February-01 March, 2015, University of North Bengal. (Presented by Kalyan Mondal in Mathematics, Statistics, Computational Science and IT).

24.       Saha, M., & Pramanik, S. (2014). The role of television in propagating superstitions among adolescent girls- a study. Presented at 21st West Bengal State Science & Technology Congress held on 20-21 February, 2014, University of Burdwan, Burdwan. (Poster Presented by Manjira Saha in Social Saha.

23.       Pramanik, S., &Chakrabarti, S.N.  (2014). Application of neutrosophic relational map in problems of construction workers. Presented at 21^st  West Bengal State Science & Technology Congress held on 20-21 February, 2014, University of Burdwan, Burdwan. (Presented by S. Pramnaik in Mathematics).

22.       Dey, P. P., Biswas, P., & Pramanik, S., & Bibhas C. Giri. (2014). TOPSIS for solving bi-level MODM problems with fuzzy parameters. Presented at 21st West Bengal State Science & Technology Congress held on 20-21 February, 2014, University of Burdwan, Burdwan. (Presented by S. Pramnaik in Mathematics).

21.       Mondal, K., & Pramanik, S. (2014). Application fuzzy goal programming approach for allocation problem of Brick-Field. Presented at 21^st West Bengal State Science & Technology Congress held on 20-21 February, 2014, University of Burdwan, Burdwan. (Presented by S. Pramnaik in Mathematics).

20.       Khatun, M., & Pramanik, S. (2014). A study on the empowerment of muslim women through the self help group. Presented at 21^st West Bengal State Science & Technology Congress held on 20-21 February, 2014, University of Burdwan, Burdwan. (Presented by Mallika Khatun in Social Science).

19.       Biswas, P, Pramanik, S., & Giri, B. C. (2013). A study on information technology professionals’ health problem based on intuitionistic fuzzy cosine similarity measure. Presented at 20^th  West Bengal State Science & Technology Congress held on 28th February-2nd March, 2013, Bengal Engineering and Science University, Shibpur. (Presented by Pranab Biswas).

18.       Dey, P.P., Pramanik, S., & Giri, B.C. (2013). Multi-criteria group decision making in intuitionistic fuzzy environment based on grey relational analysis for weaver selection in Khadi institution. Presented at 20th West Bengal State Science & Technology Congress held on 28th February-2nd March, 2013, Bengal Engineering and Science University, Shibpur. (Partha Pratim Dey).

17.       Pramanik, S. (2013). Multi-objective quadratic programming problems with fuzzy parameters. Presented at 20th West Bengal State Science & Technology Congress held on 28th February-2nd March, 2013, Bengal Engineering and Science University, Shibpur. (Presented by S. Pramanik).

16.       Pramanik, S. (2013). The use of ICT in simulated teaching.  Presented at 20^th West Bengal State Science & Technology Congress held on 28th February-2nd March, 2013, Bengal Engineering and Science University, Shibpur. (Presented by S. Pramanik).

15.       Manjira. Saha, S. Pramanik. 2013. “Deshbhag shimante basabashkari kishore-kishoreeder bipathe chalita korchhe,” Presented at 20th West Bengal State Science & Technology Congress held on 28th February-2nd March, 2013, Bengal Engineering and Science University, Shibpur. (Presented by Manjira Saha, in Social Sciences).

14.       Pramanik, S. (2012). Recent trends in mathematics teaching in secondary level. 11th Conference and Silver Jubilee Celebration held on 26-27 th May, 2012, Murshidabad Mathematical Society, Berhampore, Murshidabad, West Bengal, India.

13.       Pramanik, S. (2012). Multilevel quadratic programming problem based on fuzzy goal programming. Presented at 19th West Bengal State Science & Technology Congress held on 1st March-2nd March, 2012, Saha Institute of Nuclear Physics, Kolkata.

12.       Pramanik, S., & Dey, P.P. (2011). Fuzzy goal programming for multilevel linear fractional programming problems, Presented at 18th West Bengal State Science & Technology Congress held on 28th February -1st March, 2011, Ramakrishna Mission Residential College, Narendrapur, Kolkata 700 103 (Presented by Surapati Pramanik and Partha Pratim Dey in Mathematics).

11.       Pramanik, S. (2011). Application of fuzzy goal programming approach to multilevel programming problems with fuzzy parameters. Presented at 18^th West Bengal State Science & Technology Congress held on 28th February -1st March, 2011,Ramakrishna Mission Residential College, Narendrapur, Kolkata 700 103. (Presented by Surapati Pramanik in Mathematics).

10.       Nandi, m., & Pramanik, S. (2011). Unbalanced transportation problem with multiple intuitionistic fuzzy goals. Presented at 18^th West Bengal State Science & Technology Congress held on 28th February -1st March, 2011, Ram Krishna Mission Narendrapur (Presented by Monalisa Nandi in Mathematics).

9.         Das, P., & Pramanik, S. (2011). Goal programming for multiobjective bilevel programming problem. Presented at 18th West Bengal State Science & Technology Congress held on 28th February -1st March, 2011,Ramakrishna Mission Residential College, Narendrapur, Kolkata 700 103. (Presented by Paromita Das).

8.         Saha, M., & Pramanik, S. (2010). A study on life style education in secondary school in West Bengal.  Presented at 17th West Bengal State Science & Technology Congress held on 4-5 March, 2010, West Bengal University of Animal and Fishery Sciences, Kolkata. (Presented by Manjira Saha in Social Science).

7.         Chakrabarti, S. N., Pramanik, S., &Roy, T. K. (2009). Fuzzy goal programming approach to linear bilevel programming problems with fuzzy parameters. Presented at 16^th West Bengal State Science & Technology Congress held on 28th February-1st March, 2009, University of Burdwan, Burdwan. (Presented by Sourendranath Chakrabarti in Mathematics).

6.         Pramanik, S. (2009). Indo-Pak relations after 11/26 incidents- the application of game theory to Indo-Pak conflict. Presented at 16th West Bengal State Science & Technology Congress held on 28th February-1st March, 2009, University of Burdwan, Burdwan. (Presented by S. Pramnaik in Mathematics).

5.         Pramanik, S., Dey, P. P., & Roy, T. K. (2009). Fuzzy goal programming for bilevel linear fractional programming problems, Presented at 16^th West Bengal State Science & Technology Congress held on 28th February-1st March, 2009, University of Burdwan, Burdwan. (Presented by Partha Pratim Dey in Mathematics).

4.         Pramanik, S. and Misra, S. (2009). The study on Indo-Pak conflict based on neutrosophy, Presented at 16^th West Bengal State Science & Technology Congress held on 28th February-1st March, 2009, University of Burdwan, Burdwan. (Presented by S. Pramanik in Social Science).

3.         Pramanik, s., & Roy, T. K. (2008). The Jammu-Kashmir conflict between India and Pakistan-a case for application of neutrosophic game theory.  Presented at 15^th West Bengal State Science & Technology Congress held on 28th February-29th February, 2008, Bengal Engineering and Science University, Shibpur. (Presented by S. Pramnaik in Mathematics).

2.         Pramanik, S. &, Chakrabarti, S. N., & Roy, T. K. (2008). Goal programming approach to bilevel programming in an intuitionistic fuzzy environment.  Presented at 15th West Bengal State Science & Technology Congress held on 28th February-29th February, 2008, Bengal Engineering and Science University, Shibpur. (Presented by Sourendranath Chakrabarti in Mathematics).

1.         Pramanik, S., & Roy, T. K. (2007). The Jammu-Kashmir conflict between India and Pakistan a case for application of game theory.  Presented at 14^th West Bengal State Science & Technology Congress held on 28th February-1st March, 2007, Jadavpur University, Jadavpur. (Presented by S. Pramanik in Mathematics).

Paper presented at Regional Science and Technology Congress, West Bengal, India: 13  

[1].             Pramanik, S., & Mallick, R. (2018). TODIM strategy for multi-attribute decision making under trapezoidal neutrosophic number environment. Presented at 3^rd Regional Science and Technology Congress, 2018 Southern Region, 18^th and 19^th December 2018 organized by Bidhannagar College Government of West Bengal jointly with Department of Science and Technology and Biotechnology, Government of West Bengal.

[2].             Roy, R., Pramanik, S., & Roy, T. K. (2018).  A DEMATEL strategy for group decision making in rough neutrosophic set environment. Presented at 3^rd  Regional Science and Technology Congress, 2018 Southern Region, 18^th and 19^th December 2018 organized by Bidhannagar College Government of West Bengal jointly with Department of Science and Technology and Biotechnology, Government of West Bengal.

[3].             Pramanik, S., & Guha, D. (2018). A comparative study on secondary mathematics curricula of India and the United States. Presented at 3^rd Regional Science and Technology Congress, 2018 Southern Region, 18^th and 19^th December 2018 organized by Bidhannagar College Government of West Bengal jointly with Department of Science and Technology and Biotechnology, Government of West Bengal. . (Presented by S. Pramanik).

[4].             Pramanik, S., & Das, K. (2018). Two year B. Ed. internship programme for student-teacher in West Bengal: An overview. Presented at 3^rd Regional Science and Technology Congress, 2018 Southern Region, 18^th and 19^th December 2018 organized by Bidhannagar College Government of West Bengal jointly with Department of Science and Technology and Biotechnology, Government of West Bengal.

[5].              Pramanik, S. (2017). Neutrosophic optimization: A general view. Presented at the 2^nd Regional Science and Technology Congress (Southern Region), 2017 (2^ND RSTC(SR), 2017) jointly organized by the University of Kalyani (K.U.) and Department of Higher Education, Science and Technology and Biotechnology (DHESTBT), Government of West Bengal during December 14-15, 2017 at University of Kalyani, Nadia-741235. (Presented by S. Roy)

[6].             Pramanik, S., Dalapati, S., Alam, S., & Roy, T.K. (2017). Cross entropy measure for multi-criteria decision making under neutrosophic refined set environment. Presented at the 2^nd Regional Science and Technology Congress (Southern Region), 2017 (2^ND RSTC(SR), 2017) jointly organized by the University of Kalyani (K.U.) and Department of Higher Education, Science and Technology and Biotechnology (DHESTBT), Government of West Bengal during December 14-15, 2017 at University of Kalyani, Nadia-741235. (Presented by S. Roy)

[7].             Banerjee, T., & Pramanik, S. (2017). Character analysis of Bhishma based on neutrosophic logic. Presented at the 2^nd Regional Science and Technology Congress (Southern Region), 2017 (2^ND RSTC(SR), 2017) jointly organized by the University of Kalyani (K.U.) and Department of Higher Education, Science and Technology and Biotechnology (DHESTBT), Government of West Bengal during December 14-15, 2017 at University of Kalyani, Nadia-741235. (Presented by Tania Banerjee).

[8].             Dasgupta, A., & Pramanik, S. (2017). Con