Heterogeneous and Homogeneous Innovations Under Finite Life-Cycles of Production Technologies

An increasing shortening of product life cycles, as well as the trend towards highly individualized food products, force manufacturers to digitize their own production chains. Especially the collection, monitoring, and evaluation of food data will have a major impact in the future on how the manufacturers will satisfy constantly growing customer demands. For this purpose, an automated system for collecting and analyzing food data was set up to promote advanced production technologies in the food industry. Based on the technique of laser triangulation, various types of food were measured three-dimensionally and examined for their chromatic composition. The raw data can be divided into individual data groups using clustering technologies. Subsequent indexing of the data in a big data architecture set the ground for setting up real-time data visualizations. The cluster-based back-end system for data processing can also be used as an organization-wide communication network for more efficient monitoring of companies’ production data flows. The results not only describe the procedure for digitization of food data, they also provide deep insights into the practical application of big data analytics while helping especially small- and medium-sized enterprises to find a good introduction to this field of research.

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Heterogeneous Product and Process Innovations for a Multi-Product Monopolist Under Finite Life-Cycles of Production Technologies

SSRN Electronic Journal ◽

10.2139/ssrn.2044582 ◽

2012 ◽

Author(s):

Anton A. Bondarev

Keyword(s):

Life Cycles ◽

Process Innovations ◽

Production Technologies ◽

Product And Process

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Integrated Life Cycles Design of Structures Asko Sarja

Engineering Structures ◽

10.1016/s0141-0296(02)00056-1 ◽

2002 ◽

Keyword(s):

Life Cycles

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N OPERATING CONTROL IN DEVELOPMENT OF PRODUCTION TECHNOLOGIES OF PRODUCTION OF PLANT GROWING

Экономика сельского хозяйства России ◽

10.32651/2070-0288-2016-2-33-37 ◽

2016 ◽

pp. 33-37

Author(s):

I. Uspenskaya

Keyword(s):

Production Technologies

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THE CONCEPT OF AUTONOMOUS SYSTEMS IN INDUSTRY 4.0

Advanced Logistic Systems - Theory and Practice ◽

10.32971/als.2019.006 ◽

2019 ◽

Vol 12 (1) ◽

pp. 77-87

Author(s):

György Kovács ◽

Rabab Benotsmane ◽

László Dudás

Keyword(s):

Industry 4.0 ◽

Intelligent Systems ◽

Autonomous Systems ◽

Essential Element ◽

Industrial Sector ◽

Life Cycles ◽

Multi Agent Systems ◽

New Paradigm ◽

Intelligent Machines ◽

Digital Network

Recent tendencies – such as the life-cycles of products are shorter while consumers require more complex and more unique final products – poses many challenges to the production. The industrial sector is going through a paradigm shift. The traditional centrally controlled production processes will be replaced by decentralized control, which is built on the self-regulating ability of intelligent machines, products and workpieces that communicate with each other continuously. This new paradigm known as Industry 4.0. This conception is the introduction of digital network-linked intelligent systems, in which machines and products will communicate to one another in order to establish smart factories in which self-regulating production will be established. In this article, at first the essence, main goals and basic elements of Industry 4.0 conception is described. After it the autonomous systems are introduced which are based on multi agent systems. These systems include the collaborating robots via artificial intelligence which is an essential element of Industry 4.0.

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HTTR Workshop (Workshop on Hydrogen Production Technologies)

Journal of the Atomic Energy Society of Japan / Atomic Energy Society of Japan ◽

10.3327/jaesj.46.862 ◽

2004 ◽

Vol 46 (12) ◽

pp. 862-863

Keyword(s):

Hydrogen Production ◽

Production Technologies

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Application of high hydrostatical pressure in convenient food production technologies

Meat technology magazine ◽

10.33465/2308-2941-2019-199-7-18-21 ◽

2019 ◽

Vol 199 (7) ◽

Keyword(s):

Food Production ◽

Production Technologies

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Multiple-source Record Linkage in a Rural Industrial Community, 1680–1820

History and Computing ◽

10.3366/hac.1994.6.3.133 ◽

1994 ◽

Vol 6 (3) ◽

pp. 133-142 ◽

Cited By ~ 7

Author(s):

Steve King

Keyword(s):

Early Modern ◽

Large Scale ◽

Social Economic ◽

Life Cycles ◽

Multiple Source ◽

Demographic Analysis ◽

Ordinary People ◽

Industrial Community ◽

The Social ◽

Broad Outline

Re-creating the social, economic and demographic life-cycles of ordinary people is one way in which historians might engage with the complex continuities and changes which underlay the development of early modern communities. Little, however, has been written on the ways in which historians might deploy computers, rather than card indexes, to the task of identifying such life cycles from the jumble of the sources generated by local and national administration. This article suggests that multiple-source linkage is central to historical and demographic analysis, and reviews, in broad outline, some of the procedures adopted in a study which aims at large scale life cycle reconstruction.

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Innovation and investment framework for the development of competitive fisheries and aquaculture

Problems of Innovation and Investment Development ◽

10.33813/2224-1213.21.2019.4 ◽

2019 ◽

pp. 31-38

Author(s):

Nataliia Vdovenko ◽

Maryna Pavlenko ◽

Elena Hryniuk

Keyword(s):

Economic Conditions ◽

Technological Parameters ◽

Critical Situation ◽

Competitive Activity ◽

Scientific Approach ◽

Production Technologies ◽

Modern Economic ◽

Innovative Economy ◽

Combination Of Methods ◽

Production Plans

The purpose of the article it consists in the substantiation of innovation and investment principles of competitive development of fisheries and aquaculture in order to effectively conduct business in modern economic conditions and to comply with technological parameters of production, introduce innovations in production, and economical attitude to fish and water resources. Methodology research consists in using a combination of methods: economic-statistical, monographic, systemic, economic-mathematical, abstract-logical and others. The scientific novelty the re- sults obtained include the introduction of innovative, economically viable and competitive production technologies based on a scientific approach to organizing an aquaculture business, namely the ability to quickly and efficiently respond to external challenges, find a way out of a critical situation and correctly adjust production plans in accordance with changes in market conditions. Conclusions. Substantially modern principles of the effective functioning of fisheries in order to ensure competitive activity. Regulatory tools are proposed to ensure the profitability of the aquaculture business, which include attracting in- vestments for the acquisition of capital goods, training specialists and constantly improving their skills, and ensuring efficient fisheries production in an innovative economy.

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