The transition of the global economy to a low-carbon development path has led to dramatic changes in the organization and functioning of energy markets around the world,where hybrid energy systems(HESs)are one of the ...The transition of the global economy to a low-carbon development path has led to dramatic changes in the organization and functioning of energy markets around the world,where hybrid energy systems(HESs)are one of the decisive active agents.At the same time,a number of problems facing the modern HESs are primarily due to the stochastic nature of the renewable energy they use,require further profound changes not only in the technologies they use and how they manage them,necessary to meet the needs of end consumers and interact with the unified energy system,but also to preserve the ability of the environment to self-heal.In order to make the process of changes more efficient and eco-deep,the article proposes to use and discusses the approach based on service dominant(SD)logic,which opens up new opportunities for solving the problems of HESs.First of all through:the implementation of closer service interaction with other participants in the energy markets,as well as with the environment;a systemically organized process of transforming the“product”economic activity of HESs into a service-dominant one;developing the generalized and engineering models for solving the problems of optimizing the technical and economic indicators of HESs,operation in steady-state and transient modes.The calculations confirm the effectiveness of the proposed approach and its ability to reduce the average daily costs for the system as a whole by 14.7%compared to the costs with a uniform distribution of power between the modules.展开更多
As goods-dominant logic lexicon transitions to service-dominant logic, based on the knowledge and structure dimensions of IT and business alignment, combined with the IT flexible, we design information system architec...As goods-dominant logic lexicon transitions to service-dominant logic, based on the knowledge and structure dimensions of IT and business alignment, combined with the IT flexible, we design information system architecture diagram of y group. We try to solve y group functionality and data misfit domains, aligning information system and business in operational level to response to changes in the environment.展开更多
The purpose of this paper is to investigate how latest technology Internet-of-Things(IoT)can enable/facilitate traditional manufacturing firms shifting to more servicecentred business perspective.Service-dominant(S-D)...The purpose of this paper is to investigate how latest technology Internet-of-Things(IoT)can enable/facilitate traditional manufacturing firms shifting to more servicecentred business perspective.Service-dominant(S-D)logic has emerged to provide the right perspective,vocabulary and assumptions on which to build a servicecentred alternative to the traditional goods-dominant(G-D)paradigm for understanding economic exchange and value creation and has been identified as an appropriate philosophical foundation for the development of service science([Maglio,P.P.,&Spohrer,J.(2008).Fundamentals of service science.Journal of the Academy of Marketing Science,36,18-20;Maglio,P.P.,Vargo,S.L.,Caswell,N.,&Spohrer,J.(2009).The service system is the basic abstraction of service science.Information Systems and e-business Management,7,395-406]).S-D logic is in its current state of development is conceptual and few empirical studies exist to test such a logic realized in real business applications.On the other hand,IoT is a novel paradigm recently envisioned as a global network of machines and devices capable of interacting with each other to reach desired business goals in the real world.However,there is considerable research on IoT technical specifications but less elaboration on real business applications.This paper aims to describe IoT as a critical vehicle when manufacturing firms desire to transit to a more S-D and value co-creation business model,with an in-depth real business case study in the elevators industry.This paper aims:(1)to explain the distinction between G-D logic and S-D logic and its implication for manufacturing firms,(2)to examine how IoT can facilitate the transition from key S-D logic managerial implication perspective and(3)to conduct a case study in a new service offering of an elevator service business when transition to more S-D mindset by adoption of IoT,the purpose aims to examine whether the underlying technology can bring different ways of thinking when deploying a new industrial service offering.展开更多
文摘The transition of the global economy to a low-carbon development path has led to dramatic changes in the organization and functioning of energy markets around the world,where hybrid energy systems(HESs)are one of the decisive active agents.At the same time,a number of problems facing the modern HESs are primarily due to the stochastic nature of the renewable energy they use,require further profound changes not only in the technologies they use and how they manage them,necessary to meet the needs of end consumers and interact with the unified energy system,but also to preserve the ability of the environment to self-heal.In order to make the process of changes more efficient and eco-deep,the article proposes to use and discusses the approach based on service dominant(SD)logic,which opens up new opportunities for solving the problems of HESs.First of all through:the implementation of closer service interaction with other participants in the energy markets,as well as with the environment;a systemically organized process of transforming the“product”economic activity of HESs into a service-dominant one;developing the generalized and engineering models for solving the problems of optimizing the technical and economic indicators of HESs,operation in steady-state and transient modes.The calculations confirm the effectiveness of the proposed approach and its ability to reduce the average daily costs for the system as a whole by 14.7%compared to the costs with a uniform distribution of power between the modules.
文摘As goods-dominant logic lexicon transitions to service-dominant logic, based on the knowledge and structure dimensions of IT and business alignment, combined with the IT flexible, we design information system architecture diagram of y group. We try to solve y group functionality and data misfit domains, aligning information system and business in operational level to response to changes in the environment.
文摘The purpose of this paper is to investigate how latest technology Internet-of-Things(IoT)can enable/facilitate traditional manufacturing firms shifting to more servicecentred business perspective.Service-dominant(S-D)logic has emerged to provide the right perspective,vocabulary and assumptions on which to build a servicecentred alternative to the traditional goods-dominant(G-D)paradigm for understanding economic exchange and value creation and has been identified as an appropriate philosophical foundation for the development of service science([Maglio,P.P.,&Spohrer,J.(2008).Fundamentals of service science.Journal of the Academy of Marketing Science,36,18-20;Maglio,P.P.,Vargo,S.L.,Caswell,N.,&Spohrer,J.(2009).The service system is the basic abstraction of service science.Information Systems and e-business Management,7,395-406]).S-D logic is in its current state of development is conceptual and few empirical studies exist to test such a logic realized in real business applications.On the other hand,IoT is a novel paradigm recently envisioned as a global network of machines and devices capable of interacting with each other to reach desired business goals in the real world.However,there is considerable research on IoT technical specifications but less elaboration on real business applications.This paper aims to describe IoT as a critical vehicle when manufacturing firms desire to transit to a more S-D and value co-creation business model,with an in-depth real business case study in the elevators industry.This paper aims:(1)to explain the distinction between G-D logic and S-D logic and its implication for manufacturing firms,(2)to examine how IoT can facilitate the transition from key S-D logic managerial implication perspective and(3)to conduct a case study in a new service offering of an elevator service business when transition to more S-D mindset by adoption of IoT,the purpose aims to examine whether the underlying technology can bring different ways of thinking when deploying a new industrial service offering.
