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Melkani, Ekta
- Capacity Building of Women of Mangali Village, Hisar Through Time Management and Entrepreneurial Training for Making Bead Crafts
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Authors
Affiliations
1 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
2 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
1 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
2 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
Source
Asian Journal of Home Science, Vol 15, No 1 (2020), Pagination: 130-133Abstract
The plight of the women workers is reported worse in the small scale industries. Bead making, a small scale enterprise, is commonly practiced in North-Western part of Haryana where bead making from wood is the main source of livelihood for more than 70 per cent of the households in Mangali village. All the family members have been involved in various activities of bead making. However, women’s involvement was higher in making beads and string (mala) making (Gandhi et al., 2017) who spend 8-12 hours daily for bead string making at one rupee per string. Seasonal calendar and activity profiles of 50 purposively selected women from Surtiya Panchayat of Mangali village were recorded for the assessment of the working hours of the women involved in bead string making. The work-rest ratio of the average respondents in minutes was calculated to be 20:3, which was not satisfactory for the long hours sitting work. Trainings with time management, bead products like jewelry making, curtains, bead vases, and other bead craft techniques was given to the women for eight months at intermittent intervals. The similar work is recommended to be introduced on large scale and a proper channel can be devised to sell the products and benefit the enterprise. More time management trainings need to happen at village levels to reduce the unnecessary drudgery of the rural women and employ their precious time in quality and productive works. This will ensure that the diverse designs and market colour trends would have wide range of customers resulting in good returns for the bead making enterprise.Keywords
Village women, Intervention, Marketing, Time management, Bead products, Income generationReferences
- Anonymous (2018). Participation of Women in SSI Sector. (Retrieved on 5/03/2018 fromwww.dcmsme.gov.in.)
- AICRP (2011-2012). All India Coordinated Research Project on Home Science - FRM component. Participation in Bead Making Activity, Annual Report of CCSHAU Centre, Choudhary Charan Singh Haryana Agricultural University, Hisar (HARYANA) INDIA.
- Dahiya, P., Singh, K. and Gandhi, S. (2011). Workplace Improvement In Bead Making Through Ergonomic Intervention. International Conference on Ergonomics and Human Factors, HWWE - 2011.
- Food and Agriculture Organization (1992). Introduction to Ergonomics in forestry in developing countries. FAO forestry paper 100, FAO Rome, 39-43.
- Gandhi, S., Dilbaghi, M. and Mehta, M. (2017). Occupational Health Hazards in Bead Making Activity. In: SOUVENIRGender Issues and Socio-Economic Perspectives for Sustainable Rural Development (GIRD). Earth Vision Publications. Gurgaon, India, 253-254.
- Singh, S. and Mishra, O.P. (2017). Impact of income generating training programmes on knowledge gain by the rural women in Varanasi region. J. Pharmacognosy & Phytochemistry, 1(Special Issue): 577-579.
- Yamada, Y., Kameda, M., Noborisaka, Y., Suzuki, H., Honda, M. and Yamada, S. (2001). Comparisons of psychosomatic health and unhealthy behaviors between clean room workers in a 12-hour shift and those in an 8-hour shift. J. Human Ergology (Tokyo), 30(1–2): 399–403.
- Sinha, D.K. http://www.yourarticlelibrary.com/enterprises/ small-scale-enterprises-in-india/41139/ Retvd. on 15/02/2020.
- A Critical Review and Recommendations Over Product Designing Problems Faced by New Product Designers in Agriculture
Abstract Views :605 |
PDF Views:0
Authors
Affiliations
1 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
2 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
1 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
2 Department of Family Resource Management, C.C.S. Haryana Agricultural University, Hisar (Haryana), IN
Source
Asian Journal of Home Science, Vol 15, No 1 (2020), Pagination: 155-160Abstract
Designers of Agricultural products have major playing roles to keep trying to uplift the agricultural sector dignity by producing innovative design insights. Product designers work alongside engineers and model makers to conduct research and device an accurate design proposal for projects. Agricultural excellence could be attained through technological advancement and innovation in design. The major implications of an innovative product development postures for the agricultural research organization and management along with the role of design function in innovation development. The appropriate agricultural technologies harmonize with the environment, maximize and minimize its benefit and harmful effects, respectively while requiring an intelligent balance of labour-intensive and capital-intensive parts of technologies. The intensive innovation activity nowadays in agricultural sector is becoming an essential part of development and considered as a major factor in the contribution to the production development and efficiency in the market economy. The shaping and advancing strategy of the innovation system is aimed at assimilating the novelties making it possible to launch new production technological structure and to ensure competitiveness of enterprises both domestically and internationally in markets. New product development in agricultural risk management using integrated approach should be made to crop insurance improvement so that farmers are drawn to adopt innovative technologies and designers are motivated to design new for no loss of uncertainties of future marketing.Keywords
Agriculture product designers, Designing issues, Design innovationReferences
- Ashby, J.A. and Sperling, L. (1995). Institutionalizing Participatory, Client Driven Research and Technology Development in Agriculture. Development & Change, 26(4): 753-770.
- Bajuri, T. (2007). Design Innovation Towards Agricultural Excellence, International Conference on Engineering And Product Design Education, Northumbria University, Newcastle Upon Tyne, United Kingdom.
- Breneman, A., Jesse and Yang, M. (2013). Design for MicroEnterprise: An Approach to Product Design for Emerging Markets. Proceedings of the ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. 5(25) https://doi.org/10.1115/DETC2013-12677.
- Clark, G., Kosoris, J., Hong, L.N. and Crul, M. (2009).Design for Sustainability: Current Trends in Sustainable Product Design and Development. Sustainability, 1 : 409-424.
- Golait, Ramesh (2007). Current issues in agriculture credit in India: An assessment. Reserve Bank of India Occasional Papers, 28(1): 79-99.
- Jiang, J., Xu, F., Zhen, X., Zhang, X., Wang, Y. and Zhang L. (2006). Axiomatic Design Using Ontology Modeling for Interoperability in Small Agriculture Machinery Product Development. In: Wang, K., Kovacs, G.L., Wozny, M., Fang, M. (eds) Knowledge Enterprise: Intelligent Strategies in Product Design, Manufacturing, and Management. PROLAMAT 2006. IFIP International Federation for Information Processing, 207: 184-191. Springer, Boston, MA
- Jensen, N. and Barrett, C. (2017). Agricultural Index Insurance for Development. Applied Economic Perspectives & Policy, 39(2): 199–219, https://doi.org/10.1093/aepp/ppw022
- Klerkx, L., Bommel, S., Bos, B.. and Holster, H., Joyce, V.Z. and Aarts, N. (2012). Design process outputs as boundary objects in agricultural innovation projects: Functions and limitations. Agricultural Systems, 113 : 39-49.
- Kozhevnikova, T.M. (2013). Innovation Activity as a Major Factor in Development of Agriculture, Economical Sciences: GISAP3, pp: 30-33. Retrieved from file:///C:/Users/abc/ Downloads/gejm_2013_1_11.pdf.
- Makhura, M.N. (2008). Rethinking agricultural development finance in South Africa: Options for implementation, Agrekon, 47(1): 1-18.
- Mondal, A., Misra, I.S. and Bose, S. (2017). Building a low cost solution using wireless sensor network for agriculture application, International Conference on Innovations in Electronics, Signal Processing and Communication (IESC), Shillong, , pp. 61-65, doi: 10.1109/IESPC.2017.8071865.
- Odening, M. and Shen, Z. (2014 )C. hallenges of insuring weather risk in agriculture, Agricultural Finance Rev., 74(2): 188-199. https://doi.org/10.1108/AFR-11-2013-0039
- Sherwood, J., Clark, J.H., Farmer, T.J., Herrero-Davila, L. and Moity, L. (2017). Recirculation: A new concept to drive innovation in sustainable product design for bio-based products. Molecules, 22: 48.
- Singla, S. and Sagar, M. (2012)I.ntegrated risk management in agriculture: an inductive research. J. Risk Finance, 13 (3) : 199-214. https://doi.org/10.1108/15265941211229235
- Sumberg, J. and Reece, D. (2004) .Agricultural Research Through a ‘New Product Development’ Lens. Experimental Agriculture, 40(3): 295-314.
- Sumberg, J., Heirman, J., Raboanarielina, C. and Kaboré, A. (2013). From Agricultural Research to ‘Product Development’: What Role for User Feedback and Feedback Loops? Outlook Agric., 42(4): 233-242.
- Tabile, R., Godoy, A. Eduardo, P., Robson, P., Tangerino, R. D, Giovana, T., Porto, A. J. V. and Inamasu, Ricardo Y. (2011). Design and development of the architecture of an agricultural mobile robot. Engenharia Agrícola, 31(1): 130-142. https://doi.org/10.1590/S0100-69162011000100013
- Xuan, F.Z. and Sriram, R.D. (2006). Platform-based product design and development: A knowledge-intensive support approach. Knowledge-Based Systems, 19(7): 524-543.
- Zhu, Y., Li, S., Liu, S. and Yue, E. (2011). Design of AgentBased Agricultural Product Quality Control System. In: Li D., Liu Y., Chen Y. (eds) Computer and Computing Technologies in Agriculture IV. CCTA 2010. IFIP Advances in Information and Communication Technology, 344: 476-486 Springer, Berlin, Heidelberg.