The Mapping of Vocational Competencies Based on Regional Potential Using Geographic Information System

  • Authors

    • Danny Meirawan
    • Ana A
    • Awindha Eko Lusiana
    • Tutin Aryanti
    2018-12-09
    https://doi.org/10.14419/ijet.v7i4.33.23525
  • vocational competence, Tangerang Regency, regional potential, SIG.
  • Regional potential based approach is one of the strategies to create quality human resources that can develop regional potential. Vocational competence which is not in line with the local potential has become a problem in one of regencies in Indonesia namely Tangerang Regency. The purpose of this study was to map vocational competencies in Tangerang Regency based on the potential using the Geographic Information System (GIS). GIS is used to help school mapping so that educational planning can be well realized. This research uses a qualitative approach with descriptive research methods. The data analysis uses LQ and PCA analysis. The results of the LQ analysis show that there are 10 districts that have industrial potential, 14 districts with livestock potential, 4 districts with fishery potential and 19 districts with agricultural potential. The results of the PCA analysis show that there are 14 districts which become priority locations for vocational school development. The mapping of vocational competencies which is based on regional potential in Tangerang Regency uses GIS in the form of maps of regional potential distribution and maps of priority locations for vocational school development.

     

     

  • References

    1. [1] Nurharjadmo, W. (2008). Evaluation of implementation of dual system education policies in vocational schools. Spirit Publik, 4(2), 215–228.

      [2] Béduwé, C., & Giret, J. (2011). Mismatch of vocational graduates: What penalty on french labour market? Journal of Vocational Behavior, 78(1), 68–79.

      [3] Sundar, A., & Sulistiowati, R. (2010). Decentralization of education in the era of regional autonomy (study of school-based education in SMK 1 pesisir tengah district of West Lampung). Jurnal Ilmiah Administrasi Publik Dan Pembangunan, 2(1), 225–236.

      [4] Courtney, S. J. (2015). Mapping school types in England. Journal of Educational Administration and History, 47(3), 799–818.

      [5] Kharistiani, E., & Aribowo, E. (2013). Geographic information system mapping potential of WEB-based high school / vocational high school (Case study: Kebumen Regency). Jurnal Sarjana Teknik Informatika, 1(1), 712–720.

      [6] Prahasta, E. (2005). Basic concepts of geographic information systems. Penerbit Informatika.

      [7] Masykur, F. (2014). Geographic information system implementation using Google Maps API in student mapping. Jurnal SIMETRIS, 5(2), 181–186.

      [8] Umar, H. (2006). Marketing research and consumer behavior. PT. Gramedia Pustaka Utama.

      [9] Morrissey, K. (2014). Producing regional production multipliers for Irish marine sector policy: A location quotient approach. Ocean and Coastal Management, 91, 58–64.

      [10] Bodroža-solarov, M., Kljajić, P., Andrić, G., FilipÄev, B., Å imurina, O., Golić, M. P., & Adamović, M. (2011). Application of principal component analysis in assessment of relation between the parameters of technological quality of wheat grains treated with inert dusts against rice weevil (Sitophilus oryzae L.). Scientific Journal “Pesticides and Phytomedicine,†26(4), 385–390.

      [11] Rangkuti, F. (2006). SWOT analysis technique to dissect business case: Reorientation of strategic planning concept to face the 21st century. PT. Gramedia Pustaka Utama.

      [12] Tveter, E. (2017). Research in transportation economics the effect of airports on regional development: Evidence from the construction of regional airports in Norway. Research in Transportation Economics, 30(1), 1–9.

      [13] Muljo, B., & Susilowati, D. (2003). Application of remote sensing methods and geographic information systems for change analysis (Case study: Kali Surabaya region). Makara Teknologi, 7(1), 1–9.

      [14] Ahyani, I. A., Suprayogi, A., & Awaluddin, M. (2013). Geographic Information System Application (GIS) for inventory of education facilities and infrastructure using Google MAPS API (Case study: Kaliwungu district, Kendal district). Jurnal Geodesi Undip, 2(2), 95–102.

      [15] Jatmoko, D. (2013). Relevance of light vehicle engineering skills competency curriculum to the needs of the industrial world in Sleman Regency. Jurnal Pendidikan Vokasi, 3(1), 1–13.

      [16] Budiharso, S. (2001). Analysis techniques for the development of coastal and marine areas. Pradnya Paramita.

      [17] Venansius, B., & Wilfred, K. N. (2014). The role of TVET building regional economies. International Journal of Vocational Education Training, 22(1), 7-15.

      [18] Margarita, P. (2016). Regional overview: What is the government’s role in greening TVET? TVET Online Issue, 6, 1-18.

      [19] Michael, F. G. (2016). Geographic information system. Sage Publication.

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  • How to Cite

    Meirawan, D., A, A., Eko Lusiana, A., & Aryanti, T. (2018). The Mapping of Vocational Competencies Based on Regional Potential Using Geographic Information System. International Journal of Engineering & Technology, 7(4.33), 171-177. https://doi.org/10.14419/ijet.v7i4.33.23525