INFORMATION SYSTEM FOR TRUST FOOD SUPPLY MANAGEMENT
Published In: 6TH INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTING, ELECTRONICS AND COMMUNICATION
Author(s): KOSTA MITRESKI , A. CARBONE , D. DAVCEV , L. KOCAREV , V. STANKOVSKI
Abstract: This paper is inspired by the project proposal ID 773937-1 submitted for the Horizon 2020 topic SFS-34-2017. It aims to provid an information system for cooperative trusted food supply chain management and in this way to unlock great potential for competitiveness and sustainability. A new holistic approach to the design of trusted applications and services will deliver economic, social and environmental benefits. Blockchain technologies will enhance the transparency, information flow and management capacity allowing better interactions of farmers with other part of supply chain, especially the consumer. In this research we propose new food-on-demand business model, based on new Quality of Experience (QoE) food metrics, bridging the gap between subjective experience and objective matrics based on quality standards. Special attention will be paid to the concept of social innovation by introducing new tools for trusted analysis of customer behaviour and the ways of measuring the customer
- Publication Date: 10-Dec-2017
- DOI: 10.15224/978-1-63248-138-2-03
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LOW TEMPERATURE HYDROTHERMAL GROWTH OF ALIGNED ZINC OXIDE NANOWIRES USING FTO SUBSTRATE
Published In: 6TH INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTING, ELECTRONICS AND COMMUNICATION
Author(s): MANSOOR HUSSAIN , MUHAMMAD QUDDAMAH KHOKHAR , ZAHID ALI
Abstract: Zinc oxide nanowires have been mostly observed due to special material properties and showing special performance in photonic, electronics and optics. Aligned Zinc oxide nanowires were grown on FTO substrate by using the hydrothermal process. This growth technique is bottom up, low cost and easy. The seed layer is deposited onto the substrate by spin coating with low temperature and nanowires are affected by the thickness of seed layer. Afterwards, the nanowires were growing hydrothermally onto those seed layers. Different characterizations have been done in detail using X-ray Diffraction (XRD), Scanning electron microscopy (SEM), Raman spectroscopy and photoluminescence spectroscopy (PL). The SEM is used to relives the presence of nanowire with hexagonal shape in vertical direction. The XRD measurements show diffraction pattern of wurtzite structure.
- Publication Date: 10-Dec-2017
- DOI: 10.15224/978-1-63248-138-2-04
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- Downloads: 0