Although much has been written on how to implement and facilitate innovation platforms efficiently, few studies support ex-ante appraisal of when and for what purpose innovation platforms provide an appropriate mechanism for achieving development outcomes, and what kinds of human and financial resource investments and enabling environments are required. Without these insights, innovation platforms run the risk of being promoted as a panacea for all problems in the agricultural sector.
Innovation Platforms (IPs) are seen as a promising vehicle to foster a paradigm shift in agricultural research for development (AR4D). By facilitating interaction, negotiation and collective action between farmers, researchers and other stakeholders, IPs can contribute to more integrated, systemic innovation that is essential for achieving agricultural development impacts. However, successful implementation of IPs requires institutional change within AR4D establishments.
Innovation platforms are fast becoming part of the mantra of agricultural research and development projects and programs with an innovation objective.
This paper explores how innovation becomes an increasingly important topic in international relations, with a deep impact on collaboration as well as on competition between countries. It analyses how certain key patterns of techno-economic change lead to changes in the global distribution of innovative activities around the world and how this affects the institutions for global governance. It outlines three near-future scenarios of the international politics of innovation
This report presents the main results of the EU-funded IN-SIGHT project ‘Strengthening Innovation Processes for Growth and Development’. The authors sketched out a conceptual framework and knowledge base for a more effective European policy on innovation in agriculture and rural areas. Both conceptual framework and knowledge base are consistent with the new European agenda for agricultural and rural policy and sensitive to the diversity of the European agricultural and rural systems.
The IFAD Innovation Strategy does not set new objectives for staff, but rather defines what is needed to create an innovation-friendly environment and to support staff in achieving the expected results.To strengthen its innovative capabilities and become a better catalyst of pro-poor innovation, IFAD will focus on four clusters of activities: (i) Building capabilities and understanding of challenges requiring innovation; (ii) Nurturing partnerships and facilitating an innovation network; (iii) Embedding rigorous innovation processes and the related risk management into IFAD’s core business
Innovation system approach offers an holistic, multidisciplinary and comprehensive framework for analyzing innovation process, the roles of science and technology actors and their interactions, emphazing on wider stakeholder participation, linkages and institutional context of innovation and processes. This paper was aimed to: 1. review the concept of innovation system; 2. appraise the application to agriculture and its relevance and 3. analyze the policy implications for agricultural extension delivery in Nigeria.
Since global issues (i.e. disruption technology and sustainability) attracted the attention of agricultural system researchers and company, innovation system plays a significant role in the development of agricultural downstream supply chain, in order to make agriculture business sustain. Hence, researches in innovation system for agricultural downstream supply chain are very important in dealing with these challenges.
This presentation on innovation systems and innovation platforms was presented at the Africa RISING Training Workshop on Innovation Platforms, Addis Ababa, 23-24 January 2014.The presentation explains the concepts of innovation, innovation systems and innovation platform (IP) and also defines roles and characteristics of the IPs.
The paper uses a stochastic frontier analysis of production functions to estimate the level of technical efficiency in agriculture for a panel of 29 developing countries in Africa and Asia between 1994 and 2000. In addition, the paper examines how different components of an agricultural innovation system interact to determine the estimated technical inefficiencies.The paper has been presented at the Southern Agricultural Economics Association Annual Meeting, Birmingham, AL, February 4-7, 2012.