News Article | May 9, 2017
DCS Corporation (DCS), a premier professional services firm that provides engineering, programmatic and technical support services to the Department of Defense and other customers focused on national security, was awarded a five-year prime contract to support the Tank Automotive Research, Development and Engineering Center (TARDEC). Under this prime contract, DCS will provide expertise to TARDEC on-site at the Tank-Automotive and Armaments Command (TACOM) and other CONUS and OCONUS locations; supporting lifecycle engineering, Field Service to ground vehicle PMs for Material Solution, Operations & Support. DCS will also provide engineering services to support the acquisition and development of survivability systems, military ground vehicle robotics, software development and Post Production Software Support (PPSS), electrical and electronics architectures, high voltage power electronics, information systems security, mechanical engineering, science and technology, research and development, security engineering, and systems engineering on projects within TARDEC, and projects managed and supported by TARDEC. DCS will be working with TARDEC groups that provide research and development for ground vehicle systems developing advanced technologies for Ground Vehicle Power and Mobility (GVPM) Ground System Survivability (GSS), Ground Vehicle Robotic (GVR), Ground Vehicle Simulation Laboratory (GVSL), Software Engineering Center (SEC), Center for Systems Integration (CSI) and Vehicle and Electronics Architecture (VEA). DCS is proud to support TARDEC’s research, development, engineering, sustainment and management of cutting edge manned and unmanned ground vehicle systems, and the capabilities critical to the Warfighter in the form of common, fully developed, supportable, and reliable systems that align with strategic and operational requirements. DCS is a strong advocate of designing and building “tomorrow’s capabilities within today’s budget.” For more information about the work we do for the U.S. Army, please visit: https://www.dcscorp.com/our-customers/us-army/. About DCS DCS offers advanced technology, engineering and management solutions to Government agencies in the ground vehicle domain. The transformative ideas and entrepreneurial spirit that characterize our 1,000 plus employee-owners allow DCS to ensure the success of each client’s mission and actively contribute to the well-being of the Nation. To learn more about DCS, please visit https://www.dcscorp.com.
News Article | April 20, 2017
Wiseguyreports.Com Adds “Agriculture Custom Software Services -Market Demand, Growth, Opportunities and Analysis of Top Key Player Forecast To 2022” To Its Research Database In this report, the USA Agriculture Software Services market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022. The research report on the US Agriculture Custom Software Services market studies the market in the past based on which estimates are presented for the future. The report looks into vital market indicators, trends, and opportunities that will have a bearing on the development of this market. The report begins with an outline of terms and terminologies, classifications, and applications that are standard conventions in the US Agriculture Custom Software Services market. A glance into the industry chain structure and industry statutes that govern this industry are presented herein. Following this, operational parameters of the Agriculture Custom Software Services market such as manufacturing processes, product catalog, and cost structures are discussed at length in this report. This, in turn, helps to understand production capacity, product pricing and profit, and demand and supply gap for new entities interested in participating in the US Agriculture Custom Software Services market. This analysis is also indicative how operational aspects of the US Agriculture Custom Software Services market will impact the development of the market until the end of the forecast period. The report discusses the competitive landscape of the US Agriculture Custom Software Services market at length. The major companies that have a significant presence in this market are profiled for business attributes such as financial standing, production capacity, and SWOTs. Each of these companies is studied with reference to a timescale, in order to comprehend the changing competitive hierarchy of the US Agriculture Custom Software Services market over the past few years. The report is compiled in a chapter-wise format for reading comprehensibility, with each chapter discussing the progression analysis of a specific aspect of the market at length. Custom Software Services Consumption ( Market) in US Agriculture 1 Industry Overview 1.1 Agriculture Software Services Market Overview 1.1.1 Agriculture Software Services Product Scope 1.1.2 Market Status and Outlook 1.2 USA Agriculture Software Services Market by Product 1.3.1USA Agriculture Software Services Revenue (Million USD) and Growth (%) Comparison by Product (2012-2022) 1.3.2 USA Agriculture Software Services Revenue (Million USD) Market Share (%) by Product in 2016 1.2.1 Production Software 1.2.2 Financial Analysis Software 1.2.3 Accounting Software 1.2.4 Advanced Management Tools 1.2.5 Others 1.3USA Agriculture Software Services Market by End Users/Application 1.3.1 Animal Husbandry Software 1.3.2 Aquaculture Software 1.3.3 Hatchery Software 1.3.4 Nursery Software 1.3.5 Crop Production Software 1.3.6 Livestock Production Software 1.3.7 Others 1.4 Agriculture Software Services Development History and Outlook 1.4.1 Agriculture Software Services Development History and Status 1.4.2 Agriculture Software Services Development Outlook 1.5 Value and deal sizes 2 USA Agriculture Software Services Competition Analysis by Players 2.1 USA Agriculture Software Services Market Size (Value) by Players (2012-2017) 2.2 Competitive Status and Trend 2.2.1 Market Concentration Rate 2.2.2 Product/Service Differences 2.2.3 New Entrants 2.2.4 The Technology Trends in Future 3 Company (Top Players) Profiles and Key Data 3.1 I2S SA 3.1.1 Company Profile 3.1.2 Main Business/Business Overview 3.1.3 Products, Services and Solutions 3.1.4 I2S SA Agriculture Software Services Revenue (Value) (2012-2017) 3.1.5 Recent Developments 3.2 AKVA group 3.2.1 Company Profile 3.2.2 Main Business/Business Overview 3.2.3 Products, Services and Solutions 3.2.4 AKVA group Agriculture Software Services Revenue (Value) (2012-2017) 3.2.5 Recent Developments 3.3 ERP FM 3.3.1 Company Profile 3.3.2 Main Business/Business Overview 3.3.3 Products, Services and Solutions 3.3.4 ERP FM Agriculture Software Services Revenue (Value) (2012-2017) 3.3.5 Recent Developments 3.4 Agrimaster 3.4.1 Company Profile 3.4.2 Main Business/Business Overview 3.4.3 Products, Services and Solutions 3.4.4 Agrimaster Agriculture Software Services Revenue (Value) (2012-2017) 3.4.5 Recent Developments 3.5 FBS Systems 3.5.1 Company Profile 3.5.2 Main Business/Business Overview 3.5.3 Products, Services and Solutions 3.5.4 FBS Systems Agriculture Software Services Revenue (Value) (2012-2017) 3.5.5 Recent Developments 3.6 SST Development Group 3.6.1 Company Profile 3.6.2 Main Business/Business Overview 3.6.3 Products, Services and Solutions 3.6.4 SST Development Group Agriculture Software Services Revenue (Value) (2012-2017) 3.6.5 Recent Developments 3.7 SMAG 3.7.1 Company Profile 3.7.2 Main Business/Business Overview 3.7.3 Products, Services and Solutions 3.7.4 SMAG Agriculture Software Services Revenue (Value) (2012-2017) 3.7.5 Recent Developments 3.8 Ayoka 3.8.1 Company Profile 3.8.2 Main Business/Business Overview 3.8.3 Products, Services and Solutions 3.8.4 Ayoka Agriculture Software Services Revenue (Value) (2012-2017) 3.8.5 Recent Developments 3.9 Granular, Inc 3.9.1 Company Profile 3.9.2 Main Business/Business Overview 3.9.3 Products, Services and Solutions 3.9.4 Granular, Inc Agriculture Software Services Revenue (Value) (2012-2017) 3.9.5 Recent Developments 3.10 Agrivi 3.10.1 Company Profile 3.10.2 Main Business/Business Overview 3.10.3 Products, Services and Solutions 3.10.4 Agrivi Agriculture Software Services Revenue (Value) (2012-2017) 3.10.5 Recent Developments 3.11 Ayoka，LLC 3.12 Sum-It 3.13 AG Leader Technology 3.14 Agjunction 3.15 EFC Systems 3.16 Deere & Company For more information, please visit https://www.wiseguyreports.com/sample-request/1203917-custom-software-services-consumption-market-in-us-agriculture
Agency: European Commission | Branch: H2020 | Program: RIA | Phase: ICT-10-2016 | Award Amount: 5.03M | Year: 2017
The demand for larger and more interconnected software systems is constantly increasing, but the ability of developers to satisfy it is not evolving accordingly. The most limiting factor is software validation, which typically requires very costly and complex testing processes. This project aims at significantly improving the efficiency and effectiveness of the testing process and, with it, the overall quality of large software systems. For this, we propose to apply the divide-and-conquer principle, which is commonly used for architecting complex software, to testing by developing a novel test orchestration theory and toolbox enabling the creation of complex test suites as the composition of simple testing units. This test orchestration mechanism is complemented with a number of tools that include: (1) Capabilities for the instrumentation of the Software under Test enabling to reproduce real-world operational conditions thanks to features such as Packet Loss as a Service, Network Latency as a Service, Failure as a Service, etc. (2) Reusable testing services solving common testing problems including Browser Automation as a Service, Sensor Emulator as a Service, Monitoring as a Service, Security Check as a Service, Log Ingestion and Analysis as a Service, Cost Modeling as a Service, etc. (3) Cognitive computing and machine learning mechanisms suitable for ingesting large amounts of knowledge (e.g. specifications, logs, software engineering documents, etc.) and capable of using it for generating testing recommendations and answering natural language questions about the testing process. The ElasTest platform thus created shall be released basing on a flexible Free Open Source Software and a community of users, stakeholders and contributors shall be grown around it with the objective of transforming ElasTest into a worldwide reference in the area of large software systems testing and of guaranteeing the long term sustainability of the project generated results.
Pastor M.A.,Production Software |
Burriel V.,Production Software |
Pastor O.,Production Software
BIOINFORMATICS 2010 - Proceedings of the 1st International Conference on Bioinformatics | Year: 2010
It is well-known in the bioinformatics domain that the millions of mutations and polymorphisms that occur in human populations are potential predictors of disease and any other type of human health related problems. Finding sound strategies for going from the Genotype to the Phenotype is probably the main challenge of the modern bioinformatics. Only with the sound knowledge provided by the IS theory, a systematic approach to large-scale analysis of Genotype-Phenotype correlations can be developed. The conceptual expressiveness of a well-known and widely-accepted database that stores the current information about genome mutations, Human Gene Mutation Database, is compared with the information that is relevant from a purely conceptual modelling perspective, and the result from this comparison is reported.
De La Vara J.L.,Production Software |
Sanchez J.,Production Software
SEKE 2010 - Proceedings of the 22nd International Conference on Software Engineering and Knowledge Engineering | Year: 2010
Success of a software system highly depends on the requirements engineering process. When an information system is going to be developed for an organization, business processes should be modeled and used for requirements elicitation. Nonetheless, any requirements engineering approach must be linked to subsequent stages in order to be useful in a software development process. This paper addresses this need by linking a business process-based requirements engineering approach to system modeling. Once requirements have been specified from business process models by means of extended task descriptions, a set of rules determine how to derive an analysis class diagram and analysis state transition diagrams. As a result, extended task descriptions are integrated into object-oriented software modeling and development. The link is called ETD2OO, is the result of an industrial project and has been applied in field trials.
De La Vara J.L.,Production Software |
Wnuk K.,Lund University |
Svensson R.B.,Lund University |
Sanchez J.,Production Software |
Regnell B.,Lund University
SEKE 2011 - Proceedings of the 23rd International Conference on Software Engineering and Knowledge Engineering | Year: 2011
Quality requirements can constrain many aspects of a software system and have a strong influence on its success. Therefore, they play a major role in the development of any software system. As software systems are designed to achieve various goals and perform different functions, the order of importance of quality requirements may vary depending on these goals and functions. Within this context, this paper aims to gain new insights into how industry deals with quality requirements. More specifically, its purpose is to analyze the importance of different types of quality requirements. An empirical study has been performed in order to determine practitioners' perspectives on this issue. The paper reports on a survey in which product managers, project leaders and programmers with different backgrounds have participated. Consequently, the paper provides further evidence about the perceived importance of types of quality requirements and how the importance may be different depending on the practitioners' roles, the types of project, the orders of magnitude of the requirements or the application domains.
Kobayashi S.,Production Software |
Koizumi K.,Production Software
NEC Technical Journal | Year: 2013
Utilization of smart devices for enterprise systems is becoming increasingly popular. Yet, a wide diversity and variety of smart devices makes it necessary to develop applications that are compatible with multiple devices and platforms. This paper describes techniques for developing applications for smart devices that combine native application development technology with web technology including HTML5 as enabled by the SystemDirector Enterprise (SDE) business system platform.
Ben-Bassat A.,Production Software
Composites Technology | Year: 2015
The Internet of Things is defined as the technology of connecting devices, systems and services that goes beyond mere machine-to-machine communications. Guest columnist Avner Ben-Bassat, president/CEO of Plataine Ltd. (Waltham, MA, US) calls for its implementation in the aerospace manufacturing workplace. © 2015, Ray Publishing Inc. All rights reserved.
Production Software and Final Draft | Date: 2013-11-22