Disruptive innovation may be a fatal threat to industrial clusters, or it may be a major development opportunity. The key lies in how industrial clusters respond to disruptive innovation. The main obstacles to the dev...Disruptive innovation may be a fatal threat to industrial clusters, or it may be a major development opportunity. The key lies in how industrial clusters respond to disruptive innovation. The main obstacles to the development of disruptive innovation in industrial clusters are lock-in and cluster inertia, which originate from the negative effects of cluster system isomorphism. In order to break through the development barriers, industrial clusters need to adopt a targeted overall response strategy, including adopting bottom-up local subversive innovation policies, introducing external knowledge, encouraging spin-off entrepreneurial enterprises, and encouraging alliances and cooperation between incumbent enterprises and entrepreneurial enterprises, etc.展开更多
The challenges of disruptive innovations have gained significant attention from both academics and practitioners,commercialization being one of the most critical phases.At the same time,however,it is the less studied ...The challenges of disruptive innovations have gained significant attention from both academics and practitioners,commercialization being one of the most critical phases.At the same time,however,it is the less studied area of disruptive innovation.Therefore,this article examined scholarly papers on the commercialization of disruptive innovations through a multidisciplinary systematic literature review.It resulted in the analysis of 64 high-quality peer-reviewed academic articles.The analysis highlighted the commercialization models and main constructs that are affecting the commercialization process:market orientation,market learning,user’s involvement,market configuration,adoption networks and stakeholders,and innovation transference.The study evidences how commercialization has evolved from a later stage in innovation to influence even the early phases of innovation,characterized in turn by exploration,learning and ecosystem creation activities.Additionally,the analysis led to a proposition that established an integrated commercialization model for high uncertainty innovations.The model has three phases:1)Concept/value proposition validation,2)Business model validation&Market creation,and 3)Creating sales in the majority market.Lastly,the article contributes to a better understanding of commercialization processes in high uncertainty innovations,bridging also the academic-practitioner divide.展开更多
Product innovation is often a process for improving existing products.Low-end disruptive innovation(LDI)enables a product to meet the most price-sensitive customers in the low-end market.The existing LDI methods are m...Product innovation is often a process for improving existing products.Low-end disruptive innovation(LDI)enables a product to meet the most price-sensitive customers in the low-end market.The existing LDI methods are mainly based on unnecessary characteristics of disruptive innovations.Thus,they cannot easily identify and respond to the LDI design needs.This study proposes a hybrid method for the product LDI in two levels of the product design based on the summarized definition and essential characteristics of LDI.Feasible areas of the product LDI are determined using a hybrid relational function model to identify the maturity of dominant technologies.The technologies are identified through the technical search and evaluation of the feasible area for innovation to form an initial LDI scheme.Then,the product function is optimized using the trimming concept of theory of inventive problem solving based on the characteristics of LDI.The final LDI scheme is formed and evaluated based on the essential characteristics of the product LDI.The feasibility of the proposed method is verified in the design of a new dropping pill machine.展开更多
Fish constitute important high protein products to meet the demands of an increasing global population.However,the continued depletion of wild fish stocks is leading to increased strain on the aquaculture sector in te...Fish constitute important high protein products to meet the demands of an increasing global population.However,the continued depletion of wild fish stocks is leading to increased strain on the aquaculture sector in terms of sustaining the supply of fish and seafood to global markets.Despite the fact that aquaculture is more diversified than other agriculture sectors,there are significant pressures on the industry to continue innovating in order to enable sustainability including increased fish production,improved appropriate selection of species,disease mitigation,reduced wastage,preventing environmental pollution and generating more employment globally.This viewpoint article addresses how digital transformation can help support and meet expansion needs of the fisheries/aquaculture industries that includes exploiting and harnessing ICT,IoT,Cloud-edge computing,AI,machine learning,immersive technologies and blockchain.Digital technologies are bringing significant operational benefits for global food chain,improving efficiencies and productivity,reducing waste,contamination and food fraud.The focus on digital technologies has recently evolved to Industry 5.0 where AI and robotics are coupled with the human mind in order to advance human-centric solutions.This viewpoint describes the role of Quadruple helix Hub(academic-industry-government and society)in delivering a convergent holistic approach to meeting the diversity of fishery industry needs by connecting and placing fisheries centrally in a defined ecosystem of stakeholders.This includes specialist training,testing technologies,providing access to finance and fostering disruption through aquaculture accelerator initiatives such as that provided by Hatch Blue.Connecting digital Innovation Hubs trans-regionally,nationally and internationally will also help mitigate against significant risks for the fisheries and aquaculture industry including climate change,global pandemics and conflicts that can jeopardize fish and seafood production and supply chains.There is also a commensurate need to avail of digital technologies in order to increase awareness of key industry issues across the value chain,such as through social marketing.Thus,addressing key challenges by way of the global digital transformation of fishery and aquaculture industry will meet several sustainable development goals of the United Nations catered around the application of disruptive technology.展开更多
文摘Disruptive innovation may be a fatal threat to industrial clusters, or it may be a major development opportunity. The key lies in how industrial clusters respond to disruptive innovation. The main obstacles to the development of disruptive innovation in industrial clusters are lock-in and cluster inertia, which originate from the negative effects of cluster system isomorphism. In order to break through the development barriers, industrial clusters need to adopt a targeted overall response strategy, including adopting bottom-up local subversive innovation policies, introducing external knowledge, encouraging spin-off entrepreneurial enterprises, and encouraging alliances and cooperation between incumbent enterprises and entrepreneurial enterprises, etc.
文摘The challenges of disruptive innovations have gained significant attention from both academics and practitioners,commercialization being one of the most critical phases.At the same time,however,it is the less studied area of disruptive innovation.Therefore,this article examined scholarly papers on the commercialization of disruptive innovations through a multidisciplinary systematic literature review.It resulted in the analysis of 64 high-quality peer-reviewed academic articles.The analysis highlighted the commercialization models and main constructs that are affecting the commercialization process:market orientation,market learning,user’s involvement,market configuration,adoption networks and stakeholders,and innovation transference.The study evidences how commercialization has evolved from a later stage in innovation to influence even the early phases of innovation,characterized in turn by exploration,learning and ecosystem creation activities.Additionally,the analysis led to a proposition that established an integrated commercialization model for high uncertainty innovations.The model has three phases:1)Concept/value proposition validation,2)Business model validation&Market creation,and 3)Creating sales in the majority market.Lastly,the article contributes to a better understanding of commercialization processes in high uncertainty innovations,bridging also the academic-practitioner divide.
基金This research was sponsored by the National Natural Science Foundation of China(Grant Nos.51675159 and 51805142)the Central Government Guides Local Science and Technology Development Project of China(Grant No.18241837G)the National Innovation Method Fund of China(Grant No.2017IM040100).
文摘Product innovation is often a process for improving existing products.Low-end disruptive innovation(LDI)enables a product to meet the most price-sensitive customers in the low-end market.The existing LDI methods are mainly based on unnecessary characteristics of disruptive innovations.Thus,they cannot easily identify and respond to the LDI design needs.This study proposes a hybrid method for the product LDI in two levels of the product design based on the summarized definition and essential characteristics of LDI.Feasible areas of the product LDI are determined using a hybrid relational function model to identify the maturity of dominant technologies.The technologies are identified through the technical search and evaluation of the feasible area for innovation to form an initial LDI scheme.Then,the product function is optimized using the trimming concept of theory of inventive problem solving based on the characteristics of LDI.The final LDI scheme is formed and evaluated based on the essential characteristics of the product LDI.The feasibility of the proposed method is verified in the design of a new dropping pill machine.
基金The author would like to thank Interreg Atlantic Area Neptunus(Project EAPA_576/2018)MSCA RISE(ICHTHYS Project Number 872217)+1 种基金Regional University Network European University(RUN-EU Project)Bord Iascaigh Mhara(Project 2019 BIM-KGS-008)for funding support.
文摘Fish constitute important high protein products to meet the demands of an increasing global population.However,the continued depletion of wild fish stocks is leading to increased strain on the aquaculture sector in terms of sustaining the supply of fish and seafood to global markets.Despite the fact that aquaculture is more diversified than other agriculture sectors,there are significant pressures on the industry to continue innovating in order to enable sustainability including increased fish production,improved appropriate selection of species,disease mitigation,reduced wastage,preventing environmental pollution and generating more employment globally.This viewpoint article addresses how digital transformation can help support and meet expansion needs of the fisheries/aquaculture industries that includes exploiting and harnessing ICT,IoT,Cloud-edge computing,AI,machine learning,immersive technologies and blockchain.Digital technologies are bringing significant operational benefits for global food chain,improving efficiencies and productivity,reducing waste,contamination and food fraud.The focus on digital technologies has recently evolved to Industry 5.0 where AI and robotics are coupled with the human mind in order to advance human-centric solutions.This viewpoint describes the role of Quadruple helix Hub(academic-industry-government and society)in delivering a convergent holistic approach to meeting the diversity of fishery industry needs by connecting and placing fisheries centrally in a defined ecosystem of stakeholders.This includes specialist training,testing technologies,providing access to finance and fostering disruption through aquaculture accelerator initiatives such as that provided by Hatch Blue.Connecting digital Innovation Hubs trans-regionally,nationally and internationally will also help mitigate against significant risks for the fisheries and aquaculture industry including climate change,global pandemics and conflicts that can jeopardize fish and seafood production and supply chains.There is also a commensurate need to avail of digital technologies in order to increase awareness of key industry issues across the value chain,such as through social marketing.Thus,addressing key challenges by way of the global digital transformation of fishery and aquaculture industry will meet several sustainable development goals of the United Nations catered around the application of disruptive technology.