CLEANER PRODUCTION IN OPEN INNOVATION PERSPECTIVE AT SMALL AND MEDIUM INDUSTRIES (SMIS) BATIK
Cleaner production is a reduction in the amount of waste by implementing strategies that are carried out continuously to prevent environmental damage and increase efficiency and reduce negative impacts on humans and the environment. The implementation of cleaner production has been carried out in...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/53229 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Cleaner production is a reduction in the amount of waste by implementing strategies
that are carried out continuously to prevent environmental damage and increase
efficiency and reduce negative impacts on humans and the environment. The
implementation of cleaner production has been carried out in the manufacturing
industry by several developed countries, however its implementation in small and
medium industries is still low. The limitation of cleaner production in small and
medium industries is due to a lack of awareness of the importance of produce
products that are safe for the environment.
Implementation of cleaner production in small and medium industries have
limitation that can be overcome by innovation, however innovation carried out
internally (closed innovation) have not provided optimal support in achieving
cleaner production. It takes the involvement of external parties (stakeholders) in
helping small and medium industries (SMIs) to achieve cleaner production.
Innovation that involves external parties in innovation activities on organization is
called open innovation.
This study involves 182 SMIs batik as respondents. The respondents are located in
Laweyan (Surakarta), Madura, and Lasem (Rembang). The research model is
constructed to achieve cleaner production through the implementation of open
innovation at batik SMIs which is supported by the open innovation climate. There is
environmental dynamism and environmental competitiveness as a moderator for the
relationship between open innovation climate and open innovation.
The results of testing the measurement model and structural model state that the
accepted hypothesis is that open innovation has a positive effect on cleaner
production (H1); open innovation climate has a positive influence on open innovation
(H2); and environmental dynamism as a moderator that can strengthen the influence
of open innovation climate on open innovation (H3) statistically significant, while
environmental competitiveness moderator is not statistically proven to strengthen the
effect of open innovation climate on open innovation (H4).
Based on the hypothesis testing, a mapping of the position of open innovation on
cleaner production was carried out. The position of the SMIs Batik in each quadrant
was analyzed / explored by depth interviews.. The results of the mapping divided the
SMIs into four quadrants. Quadrant I is for SMIs that do not yet have the ability to
carry out the open innovation process at the same time as being unable to achieve
cleaner production. Quadrant II is for SMIs that have the ability to achieve cleaner
production, but this has not been based on the open innovation process. Quadrant III
is for SMIs that already have the ability to do the open innovation process but have
not yet supported to achieve cleaner production. Quadrant IV is for SMIs that have
the ability to achieve cleaner production and are supported by the open innovation
process.
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