GPS Anti-jam System Demonstrated by Israel Aerospace Industries and Its Significance

　　Global Positioning System (GPS) has become an indispensable tool in modern warfare and military operations. However, with the widespread use of GPS, the risk of jamming and attack is also increasing. signal jammer Israel Aerospace Industries (IAI) first demonstrated its GPS Anti-jam System at the 2017 Bangalore Air Show in India, which is designed to protect the global navigation satellite system from jamming and attack. This article will explore the technical characteristics, application prospects and significance of this system in the global military and civilian fields. cell phone jammer

　　Technical characteristics of GPS Anti-jam System

　　Multi-channel Controlled Receive Antenna Technology

　　The GPS Anti-jam System demonstrated by Israel Aerospace Industries is based on multi-channel controlled receive antenna technology. This technology makes avionics systems immune to direct electronic attacks such as GPS jammers through multiple antenna arrays and advanced digital processing units. The system is only the size of a laptop, which is easy to install and use on various platforms.GPS jammer

　　Advanced signal processing methods

　　The system uses the most advanced signal processing methods to resist jamming by using a multi-channel method. The project manager pointed out that this technology is currently the most advanced anti-jamming method in the world and can effectively counter various forms of GPS jamming. The system is designed not only to GPS, but also to block interference with global navigation satellite systems (GNSS), including Europe's Galileo, Russia's GLONASS and China's BeiDou.

　　Flexible integration and upgrade capabilities

　　The system can be integrated on any sea and air platform to meet the diverse needs of customers. IAI also provides different packaging solutions for future customers to meet miniaturization needs. In addition, the system is highly flexible and upgradeable. Users only need to make slight software changes when using the next generation of coded transmission methods to effectively counter future interference threats.

　　Application prospects

　　Military field

　　In the military field, the application prospects of GPS anti-interference systems are broad. As early as during the Iraq War in 2003, the Iraqi military successfully used GPS jammers to interfere with more than 100 precision-guided weapons of the US military. The anti-interference system demonstrated by IAI this time can effectively enhance the combat capabilities of various countries' armies in complex electronic environments and ensure the reliability of navigation and precision strikes.

　　Civilian field

　　In the civilian field, GPS anti-interference systems also have important applications. For example, in the fields of aviation, navigation, transportation, etc., GPS navigation systems are key technologies. The introduction of this system can improve the safety and reliability of these areas and prevent accidents and losses caused by interference.

　　Global market demand

　　Indian demand

　　The GPS anti-jam system displayed by Israel Aerospace Industries at the Bangalore Air Show is aimed at India's needs. During the Kargil conflict between India and Pakistan in 1999, the United States unilaterally shut down GPS services to the India-Pakistan region, causing losses to India. India has been seeking to ensure satellite guidance solutions, including the establishment of its own global satellite navigation system. The introduction of this system can help India improve the anti-jam capability of its navigation system and enhance national security.

　　Global market potential

　　Israel Aerospace Industries estimates that the sales of this system and its related product portfolio will reach hundreds of millions of dollars in the next three to five years. This shows that the demand for anti-jam systems in the global market is increasing rapidly. With the widespread application of global satellite navigation systems, the demand for anti-jam technology in various countries will continue to grow.

　　Conclusion

　　The GPS anti-jam system displayed by Israel Aerospace Industries at the Bangalore Air Show in India represents the latest progress in anti-jam technology for global navigation satellite systems. The system not only has advanced technical characteristics and broad application prospects, but also can meet the growing needs of the global market. In the future, with the continuous advancement of technology and the expansion of the market, GPS anti-interference systems will play an increasingly important role in the global military and civilian fields.

GPS Antenna Market Growth and key Industry Players 2021 Analysis and Forecasts to 2027

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The Most Recent Uploaded Report Global GPS Antenna Market Growth (Status and Outlook) 2021-2027 provides an in-depth assessment of crucial parameters affecting the growth of the market. The report reveals insightful details on how customers can improve their critical leadership capability across the global GPS Antenna market. The report consists of estimates of market size, industry growth opportunities and challenges, current market trends, potential players, and expected performance of the market in near future across the globe. The report distinguishes the ever-evolving trends in the business sector and competition with development in the CAGR over the course of the forecast from 2020 to 2027. The most recent marketing drivers that are the basis for recording, market performance, and key choices for progress and productivity are covered in the report.

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By Market Players : Harxon Corporation Stonex Tallysma NovAtel NavCom Technology Trimble Sokkia JAVAD GNSS Topcon Positioning Systems Hemisphere GNSS ZHEJIANG JIAKANG ELECTRONICS Leica Geosystems Inpaq Spectracom Jiaxing Jiali Electronic

Report Description:

The report evaluates the size of the global GPS Antenna market in terms of revenue for the forecast period. All the data figures like percentage shares split and breakdowns are determined using secondary sources and verified through primary sources. It shares details related to production value with some significant factors that can prompt market development. As well, the report is portioned into manufacturers, types, applications, and regions. Further, the research team has explained the dynamics of the market, future business impact, competition landscape of the companies, and the flow of the global supply and consumption. Additionally, segments are analyzed in terms of market growth, share, growth rate, and other vital factors.

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By Product Types: Vertical Polarization Circular Polarization By Applications: Aviation Industry Automotive Waterway Transportation Healthcare

The complete market report is made up of some graphical representations, tables, and figures which display a clear picture of the developments of the products and their market performance during the estimated time period. The pictorial representation makes easy understanding about the growth rate, regional shares as well as segmentation revenue growth. The segmented study prepares to invest to differentiate the high-growth segments of the global GPS Antenna market and see how the major segments can develop over the forecast period.

Geographically, the Global GPS Antenna Market is designed for the following Regional Markets:

North America (USA, Canada and Mexico)

Europe (Germany, France, UK, Russia and Italy)

Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

South America (Brazil, Argentina, Colombia etc.)

Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)

Major Topics Covered on this Report:

Study Coverage

Executive Summary

GPS Antenna Market Size through Manufacturers

Production through Regions

Consumption through Regions

GPS Antenna Market Size through Type

GPS Antenna Market Size through Application

Manufacturers Profiles

Production Forecasts

Consumption Forecast

Upstream, Industry Chain, and Downstream Customers Analysis

Opportunities and Challenges, Threat and Affecting Factors

Key Findings

Appendix

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Additionally, the report answers some of these main questions of the market:

What’s the growth potential of the GPS Antenna market?

The Application part will grow at a robust rate?

What unit the growth opportunities that may emerge at intervals the GPS Antenna trade at intervals the years to come?

What unit the key challenges that the global GPS Antenna market might face at intervals in the future?

The leading companies at intervals the global GPS Antenna market?

The key trends completely impacting the market growth?

The growth strategies thought of by the players to sustain hold at intervals the global GPS Antenna Market?

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GNSS signals are weak and vulnerable to intentional and unintentional interference, due to this many people or state actors who are engaging in smuggling, terrorism, spying and for seeking military strategic gains can harm the assets of any country by intentionally blocking, jamming, spoofing, or interfering with lawful communications.

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The unmanned vehicles usually rely on a GNSS/GPS signals for positioning, navigation, and stability purpose. High reliance on GNSS/GPS signals makes unmanned vehicle more vulnerable from jamming and spoofing attacks. Therefore, the need for military GNSS/GPS anti-jamming systems is evident to counter the jamming attacks on unmanned vehicles.

Countries having a significant defense budget, including the U.S., the U.K., Russia, China and India, are spending high on development of next-generation satellite navigation systems like the GPS III & GPS IIIF satellites, mainly to cover more areas and derive as much correct, secure information by a variety of GNSS receivers/sensors in the shortest achievable time.

Geographic Information System (GIS) Market Overview, Research & Analysis To 2022

The global Geographic Information System (GIS) market is valued at XX million USD in 2016 and is expected to reach XX million USD by the end of 2017, growing at a CAGR of XX% between 2016 and 2022.

Japan plays an important role in global market, with market size of xx million USD in 2016 and will be xx million USD in 2017, with a CAGR of xx%.

This report, with focus on top players in the global and Japan, studies the Geographic Information System (GIS) market's development status and future trend in the global and Japan. It splits Geographic Information System (GIS) market by type and by applications to fully and deeply research and reveal market profile and prospect.

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The major players include •    Autodesk Inc. (US) •    Bentley System, Incorporated (US) •    Environmental Systems Research Institute, Inc. (Esri) (US) •    General Electric Co. (US) •    Hexagon AB (Sweden) •    Pitney Bowes Inc. (US) •    Topcon Corporation (Japan) •    Trimble Inc. (US) •    Blue Marble Geographics (US) •    Caliper Corporation (US) •    Computer Aided Development Corporation Limited (Cadcorp) (UK) •    Geosoft Inc. (Canada) •    Handheld Group (Sweden) •    Harris Corporation (US) •    Hi-Target Surveying Instrument Co. Ltd. (China) •    MacDonald, Dettwiler and Associates Ltd. (Canada) •    PASCO CORPORATION (Japan) •    Beijing Unistrong Science & Technology Co., Ltd. (China) •    Champion Instruments, LLC (US) •    Golden Software LLC (US) •    SuperMap Software Co., Ltd. (China)

Geographically, this report splits the Global market into the following regions: •    Asia Pacific •    Japan •    Tokyo •    Yokohama •    Osaka •    Nagoya •    Others •    China •    Korea •    India •    Others •    Europe •    France •    Germany •    United Kingdom •    Italy •    Russia •    Others •    North America •    United States •    Canada •    Latin America •    Brazil •    Mexico •    Others •    Southeast Asia •    Singapore •    Malaysia •    Vietnam •    Myanmar •    Thailand •    Indonesia •    Philippines •    Others •    Middle East & Africa •    Saudi Arabia •    Iran •    UAE •    Turkey •    Israel •    Egypt •    South Africa •    Others

On the basis of product, the Geographic Information System (GIS) market is primarily split into By Hardware •    GIS Collectors •    Total Stations •    LIDAR •    GNSS/GPS Antennas •    Imaging Sensors By Function •    Mapping •    Surveying •    Telematics and Navigation •    Location-Based Services

Key Applications •    Agriculture •    Construction •    Transportation •    Utilities •    Mining •    Oil & Gas

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Table of Contents

2017-2022 Global and Japan Geographic Information System (GIS) Market Analysis Report 1 Geographic Information System (GIS) Overview 1.1 Product Overview and Scope of Geographic Information System (GIS) 1.2 Global and Japan Geographic Information System (GIS) Market by Applications/End Users 1.2.1 Japan Geographic Information System (GIS) Sales (K Units) and Market Share Comparison by Applications (2012-2017) 1.2.1.1 Japan Geographic Information System (GIS) Sales (K Units) and Market Share by Applications (2012-2017) 1.2.1.2 Japan Geographic Information System (GIS) Sales Growth Rate (%) by Applications (2012-2017) 1.2.1.3 Market Drivers and Opportunities 1.2.2 Japan Geographic Information System (GIS) Sales (K Units) and Market Share Comparison by Applications (2012-2017) 1.2.3 Global Geographic Information System (GIS) Sales by Application (2012-2017) 1.2.3.1 Global Geographic Information System (GIS) Sales (K Units) and Market Share by Applications (2012-2017) 1.2.3.2 Global Geographic Information System (GIS) Sales Growth Rate (%) by Applications (2012-2017) 1.2.3.3 Market Drivers and Opportunities 1.2.4 Global Geographic Information System (GIS) Sales (K Units) and Market Share Comparison by Applications (2012-2017) 1.2.5 Agriculture 1.2.6 Construction 1.2.7 Transportation 1.2.8 Utilities 1.2.9 Mining 1.2.10 Oil & Gas 1.3 Global and Japan Market Size (Sales and Revenue) of Geographic Information System (GIS) (2012-2017) 1.3.1 Japan Market Size (Sales and Revenue) of Geographic Information System (GIS) (2012-2017) 1.3.1.1 Japan Geographic Information System (GIS) Sales (K Units) and Growth Rate (%) (2012-2017) 1.3.1.2 Japan Geographic Information System (GIS) Revenue (Million USD) and Growth Rate (2012-2017) 1.3.2 Global Market Size (Sales and Revenue) of Geographic Information System (GIS) (2012-2017) 1.3.2.1 Global Geographic Information System (GIS) Sales (K Units) and Growth Rate (%) (2012-2017) 1.3.2.2 Global Geographic Information System (GIS) Revenue (Million USD) and Growth Rate (2012-2017) 1.4 Global and Japan Classification of Geographic Information System (GIS) by Hardware 1.4.1 Japan Geographic Information System (GIS) Sales (K Units) and Market Share by Hardware (2012-2017) 1.4.2 Global Geographic Information System (GIS) Sales (K Units) and Market Share by Hardware (2012-2017) 1.4.3 Japan Geographic Information System (GIS) Revenue (Million USD) and Market Share by Hardware (2012-2017) 1.4.4 Global Geographic Information System (GIS) Revenue (Million USD) and Market Share by Hardware (2012-2017) 1.4.5 Japan Geographic Information System (GIS) Price (USD/Unit) by Hardware (2012-2017) 1.4.6 Global Geographic Information System (GIS) Price (USD/Unit) by Hardware (2012-2017) 1.4.7 Japan Geographic Information System (GIS) Sales Growth Rate (%) by Hardware (2012-2017) 1.4.8 Global Geographic Information System (GIS) Sales Growth Rate (%) by Hardware (2012-2017) 1.4.9 GIS Collectors 1.4.10 Total Stations 1.4.11 LIDAR 1.4.12 GNSS/GPS Antennas 1.4.13 Imaging Sensors 1.5 Global and Japan Classification of Geographic Information System (GIS) by Function 1.5.1 Japan Geographic Information System (GIS) Sales (K Units) and Market Share by Function (2012-2017) 1.5.2 Global Geographic Information System (GIS) Sales (K Units) and Market Share by Function (2012-2017) 1.5.3 Japan Geographic Information System (GIS) Revenue (Million USD) and Market Share by Function (2012-2017) 1.5.4 Global Geographic Information System (GIS) Revenue (Million USD) and Market Share by Function (2012-2017) 1.5.5 Japan Geographic Information System (GIS) Price (USD/Unit) by Function (2012-2017) 1.5.6 Global Geographic Information System (GIS) Price (USD/Unit) by Function (2012-2017) 1.5.7 Japan Geographic Information System (GIS) Sales Growth Rate (%) by Function (2012-2017) 1.5.8 Global Geographic Information System (GIS) Sales Growth Rate (%) by Function (2012-2017) 1.5.9 Mapping 1.5.10 Surveying 1.5.11 Telematics and Navigation 1.5.12 Location-Based Services

2 Global and Japan Geographic Information System (GIS) Market Competition by Players/Manufacturers 2.1 Japan Geographic Information System (GIS) Market Competition by Players/Manufacturers 2.1.1 Japan Geographic Information System (GIS) Sales and Market Share of Key Players/Manufacturers (2012-2017) 2.1.2 Japan Geographic Information System (GIS) Revenue and Share by Players/Manufacturers (2012-2017) 2.1.3 Japan Geographic Information System (GIS) Average Price (USD/Unit) by Players/Manufacturers (2012-2017) 2.1.4 Japan Geographic Information System (GIS) Market Competitive Situation and Trends 2.1.4.1 Japan Geographic Information System (GIS) Market Concentration Rate 2.1.4.2 Japan Geographic Information System (GIS) Market Share of Top 3 and Top 5 Players/Manufacturers 2.1.4.3 Mergers & Acquisitions, Expansion in Japan Market 2.1.5 Japan Players/Manufacturers Geographic Information System (GIS) Manufacturing Base Distribution, Sales Area, Product Types 2.2 Global Geographic Information System (GIS) Market Competition by Players/Manufacturers 2.2.1 Global Geographic Information System (GIS) Sales and Market Share of Key Players/Manufacturers (2012-2017) 2.2.2 Global Geographic Information System (GIS) Revenue and Share by Players/Manufacturers (2012-2017) 2.2.3 Global Geographic Information System (GIS) Average Price (USD/Unit) by Players/Manufacturers (2012-2017) 2.2.4 Global Geographic Information System (GIS) Market Competitive Situation and Trends 2.2.4.1 Global Geographic Information System (GIS) Market Concentration Rate 2.2.4.2 Global Geographic Information System (GIS) Market Share of Top 3 and Top 5 Players/Manufacturers 2.2.4.3 Mergers & Acquisitions, Expansion in Global Market 2.2.5 Global Players/Manufacturers Geographic Information System (GIS) Manufacturing Base Distribution, Sales Area, Product Types

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Impact of COVID-19 Outbreak on Geographic Information System (GIS) Market 2020

Global Geographic Information System (GIS) Industry

New Study On “2018-2022 Geographic Information System (GIS) Market Global Key Player, Demand, Growth, Opportunities and Analysis Forecast” Added to Wise Guy Reports Database

This report mainly introduces volume and value market share by players, by regions, by product type, by consumers and also their price change details. As a Detailed Analysis report, it covers all details inside analysis and opinion in Geographic Information System (GIS) industry.

This report splits Geographic Information System (GIS) market By Hardware, By Function, which covers the history data information from 2012 to 2016 and forecast from 2017 to 2022.

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This report focuses Global market, it covers details as following:

Major Companies Autodesk Inc. (US) Bentley System, Incorporated (US) Environmental Systems Research Institute, Inc. (Esri) (US) General Electric Co. (US) Hexagon AB (Sweden) Pitney Bowes Inc. (US) Topcon Corporation (Japan) Trimble Inc. (US) Blue Marble Geographics (US) Caliper Corporation (US) Computer Aided Development Corporation Limited (Cadcorp) (UK) Geosoft Inc. (Canada) Handheld Group (Sweden) Harris Corporation (US) Hi-Target Surveying Instrument Co. Ltd. (China) MacDonald, Dettwiler and Associates Ltd. (Canada) PASCO CORPORATION (Japan) Beijing Unistrong Science & Technology Co., Ltd. (China) Champion Instruments, LLC (US) Golden Software LLC (US) SuperMap Software Co., Ltd. ?(China)

Main Regions North America United States Canada Latin America Mexico Brazil Argentina Others Europe Germany United Kingdom France Italy Spain Russia Netherland Others Asia & Pacific China Japan India Korea Australia Southeast Asia Indonesia Thailand Philippines Vietnam Singapore Malaysia Others Africa & Middle East South Africa Egypt Turkey Saudi Arabia Iran Others

Main Product Type Geographic Information System (GIS) Market, by Hardware GIS Collectors Total Stations LIDAR GNSS/GPS Antennas Imaging Sensors Geographic Information System (GIS) Market, by Function Mapping Surveying Telematics and Navigation Location-Based Services

Main Applications Agriculture Construction Transportation Utilities Mining Oil & Gas

Also Read: http://heraldkeeper.com/tech/global-geographic-information-system-gis-market-2018-share-trend-segmentation-forecast-2022-98336.html

Some Major Points from Table of content:

Global Geographic Information System (GIS) Detailed Analysis Report 2017-2022 Chapter One Geographic Information System (GIS) Market Overview 1.1 Global Geographic Information System (GIS) Market Sales Volume Revenue and Price 2012-2022 1.2 Geographic Information System (GIS), By Hardware 2012-2022 1.2.1 Global Geographic Information System (GIS) Sales Market Share by Hardware 2012-2022 1.2.2 Global Geographic Information System (GIS) Revenue Market Share by Hardware 2012-2022 1.2.3 Global Geographic Information System (GIS) Price by Hardware 2012-2022 1.2.4 GIS Collectors 1.2.5 Total Stations 1.2.6 LIDAR 1.2.7 GNSS/GPS Antennas 1.2.8 Imaging Sensors 1.3 Geographic Information System (GIS), by Function 2012-2022 1.3.1 Global Geographic Information System (GIS) Sales Market Share by Function 2012-2022 1.3.2 Global Geographic Information System (GIS) Revenue Market Share by Function 2012-2022 1.3.3 Global Geographic Information System (GIS) Price by Function 2012-2022 1.3.4 Mapping 1.3.5 Surveying 1.3.6 Telematics and Navigation 1.3.7 Location-Based Services

Chapter Two Geographic Information System (GIS) by Regions 2012-2017 2.1 Global Geographic Information System (GIS) Sales Market Share by Regions 2012-2017 2.2 Global Geographic Information System (GIS) Revenue Market Share by Regions 2012-2017 2.3 Global Geographic Information System (GIS) Price by Regions 2012-2017 2.4 North America 2.4.1 United States 2.4.2 Canada 2.5 Latin America 2.5.1 Mexico 2.5.2 Brazil 2.5.3 Argentina 2.5.4 Others in Latin America 2.6 Europe 2.6.1 Germany 2.6.2 United Kingdom 2.6.3 France 2.6.4 Italy 2.6.5 Spain 2.6.6 Russia 2.6.7 Netherland 2.6.8 Others in Europe 2.7 Asia & Pacific 2.7.1 China 2.7.2 Japan 2.7.3 India 2.7.4 Korea 2.7.5 Australia 2.7.6 Southeast Asia 2.7.6.1 Indonesia 2.7.6.2 Thailand 2.7.6.3 Philippines 2.7.6.4 Vietnam 2.7.6.5 Singapore 2.7.6.6 Malaysia 2.7.6.7 Others in Southeast Asia 2.8 Africa & Middle East 2.8.1 South Africa 2.8.2 Egypt 2.8.3 Turkey 2.8.4 Saudi Arabia 2.8.5 Iran 2.8.6 Others in Africa & Middle East

Chapter Three Geographic Information System (GIS) by Players 2012-2017 3.1 Global Geographic Information System (GIS) Sales Volume Market Share by Players 2012-2017 3.2 Global Geographic Information System (GIS) Revenue Share by Players 2012-2017 3.3 Global Top Players Geographic Information System (GIS) Key Product Model and Market Performance 3.4 Global Top Players Geographic Information System (GIS) Key Target Consumers and Market Performance

Chapter Four Geographic Information System (GIS) by Consumer 2012-2017 4.1 Global Geographic Information System (GIS) Sales Market Share by Consumer 2012-2017 4.2 Agriculture 4.3 Construction 4.4 Transportation 4.5 Utilities 4.6 Mining 4.7 Oil & Gas 4.8 Consuming Habit and Preference

Chapter Five Global Top Players Profile 5.1 Autodesk Inc. (US) 5.1.1 Autodesk Inc. (US) Company Details and Competitors 5.1.2 Autodesk Inc. (US) Key Geographic Information System (GIS) Models and Performance 5.1.3 Autodesk Inc. (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.1.4 Autodesk Inc. (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.2 Bentley System, Incorporated (US) 5.2.1 Bentley System, Incorporated (US) Company Details and Competitors 5.2.2 Bentley System, Incorporated (US) Key Geographic Information System (GIS) Models and Performance 5.2.3 Bentley System, Incorporated (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.2.4 Bentley System, Incorporated (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.3 Environmental Systems Research Institute, Inc. (Esri) (US) 5.3.1 Environmental Systems Research Institute, Inc. (Esri) (US) Company Details and Competitors 5.3.2 Environmental Systems Research Institute, Inc. (Esri) (US) Key Geographic Information System (GIS) Models and Performance 5.3.3 Environmental Systems Research Institute, Inc. (Esri) (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.3.4 Environmental Systems Research Institute, Inc. (Esri) (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.4 General Electric Co. (US) 5.4.1 General Electric Co. (US) Company Details and Competitors 5.4.2 General Electric Co. (US) Key Geographic Information System (GIS) Models and Performance 5.4.3 General Electric Co. (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.4.4 General Electric Co. (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.5 Hexagon AB (Sweden) 5.5.1 Hexagon AB (Sweden) Company Details and Competitors 5.5.2 Hexagon AB (Sweden) Key Geographic Information System (GIS) Models and Performance 5.5.3 Hexagon AB (Sweden) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.5.4 Hexagon AB (Sweden) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.6 Pitney Bowes Inc. (US) 5.6.1 Pitney Bowes Inc. (US) Company Details and Competitors 5.6.2 Pitney Bowes Inc. (US) Key Geographic Information System (GIS) Models and Performance 5.6.3 Pitney Bowes Inc. (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.6.4 Pitney Bowes Inc. (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross

Continued…..

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Precision Farming Market Demand and Cost Structure Analysis | Forecast To 2025

The global Precision Farming Market size is expected to value at USD 10.23 billion by 2025. The market is subject to witness a substantial growth due to the increasing application of telematics in agriculture and growing adoption of the modern technologies in agriculture sector. Telematics services consist of tracking devices that implement global Navigation Satellite System (GNSS) to display the location of equipment for management purposes.

Precision farming systems also provides a real-time view of the location, temperature variation, ground speed, and the duration prior to maintenance is required. Globally, the precision farming market is predicted to grow at CAGR of 14.2% in forecast period, providing numerous opportunities for market players to invest in research and development in the market.

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Growing demand for telematics services from farm equipment manufactures in order to enhance overall efficiency of the products are expected to fuel the growth of precision farming industry. Enhanced efficiency and superior performance of farm equipment allows reduction in the cost of agricultural operations, thereby maximizing profit and generate excess of revenues. Such factors are substantially affecting growth of the market, in the recent years. Furthermore, an effective administrative framework helps to reduce any negative environmental impact.

Increasing adoption of the telematics technology in developed economies in order to increase overall agriculture yield in predicted to augment market growth over the forecast period. Telematics services allows farmers to gather and manage important data with the help of field equipment. Telematics technology majorly utilizes farm equipment such as sensors that are installed on tractors, and other field monitoring equipment to gather critical data, and necessary actions.

Recent technological advancement in the agriculture sector coupled with development of innovative products to increase overall agricultural yield are expected to propel market growth in the near future. With increasing adoption of modern technology coupled with future advancements in agriculture sector, precision farming industry is subject to high-end growth in developed economies and commercialized areas. Regular monitoring by government authorities and introducing set of guidelines &validations in regards to the environmental well-being acts as a driving factor for market growth, in the recent years. Additionally, increasing import and export of agriculture goods is leading to commercialization of agriculture sector.

The hardware segment is considered as one of the fastest growing segment in the precision agriculture market with substantial revenue generation in the last couple of years. The hardware segment is further categorized into automation & control, sensing components, and antennas & access networks. The automation & control systems is majorly consists of electronic measurement devices such as drones, application monitoring equipment, route-guidance equipment, remote-location sensing devices, motionless tractors, handheld electronic devices, Variable Rate Technology (VRT), and wireless modules.

Precision farming system is also termed as a satellite farming or a site-specific crop management (SSCM),involves an agricultural management technique that consists of activities such as observation, measurement and response to inter and intra-field variations in the harvests. Precision farming offers a decision support system (DSS) for agriculture management in order to optimize returns on inputs while preserving resources.

The precision farming industry is divided by region as North America, Europe, Asia-Pacific, Latin America and Africa. North America has shown major growth in recent years owing to the rise in the adoption of modern agriculture technologies, an effective administrative framework, large number of governmental initiative to boost agriculture production, and existence of prominent industry players in the region. Asia-Pacific region is predicted to hold major market share in the precision farming market with massive growth in forecast period.

Countries such as India, China and Singapore are leading the Asia-Pacific market with increasing number of schemes and programs to create awareness among farmers, growing infrastructural activities, and significant investment by leading industry players considering potential growth opportunities in the region. The key players in the precision farming industry are Ag Leader Technology, Inc., AgJunction Incorporations, CropMetrics LLC, Trimble Incorporations, AGCO Co., and Raven Industries Incorporations.

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Market Segment:

Precision Farming/Agriculture Offering Outlook (Revenue, USD Million, 2014 - 2025) • Hardware • Automation & control systems • Drones • Application control devices • Guidance systems • GPS • GIS • Remote sensing • Handheld • Satellite sensing • Driverless tractors • Mobile devices • VRT • Map-based • Sensor-based • Wireless modules • Bluetooth technology • Wi-Fi technology • Zigbee technology • RF technology • Sensing devices • Soil sensor • Nutrient sensor • Moisture sensor • Temperature sensor • Water sensors • Climate sensors • Others • Antennas/access points • Software • Web-based • Cloud-based • Services • System integration & consulting • Maintenance & support • Managed services • Data services • Analytic services • Farm operation services • Assisted professional services • Supply chain management services • Climate information services

Precision Farming/Agriculture Application Outlook (Revenue, USD Million, 2014 - 2025) • Yield monitoring • On-farm • Off-farm • Field mapping • Crop scouting • Weather tracking & forecasting • Irrigation management • Inventory management • Farm labor management

Precision Farming/Agriculture Regional Outlook (Revenue, USD Million, 2014 - 2025) • North America • U.S. • Canada • Mexico • Europe • Germany • UK • France • Russia • Asia Pacific • China • Japan • India • Australia • South America • Brazil • Middle East and Africa (MEA)

For More Details Please Visit www.millioninsights.com

China's Long March 3B/G2 Rocket Launches Beidou-3 G1Q satellite into GTO

China successfully lofted a Beidou navigation satellite into a geosynchronous transfer orbit Thursday with an enhanced #LongMarch-3B launch from the Xichang Satellite Launch Centre.

Liftoff took place at 15:57 universal time (23:57 local, 11:57 Eastern) with the China Aerospace Science and Technology Group (CASC) declaring mission success just over an hour after launch.

The launch was the 32nd Chinese orbital launch of 2018 and the 30th carried out by state-owned space programme contractor CASC, while the Beidou-3 G1Q Satellite is the 41st launched in the series, with the first launched in 2000.

The satellite's main functions are providing positioning, navigation and timing services as part of the 35-satellite Beidou network, which China is pushing to complete in the first half of 2020.

Unlike most Beidou satellites, which operate in medium Earth orbit at around an altitude of 21,000 kilometres, the third phase Beidou-3G1Q satellite will occupy a slot in geostationary orbit 36,000 km above the Earth, facilitating backward compatibility with earlier phase series satellites.

The satellite is based on the 4,600 kg DFH-3B bus designed for geostationary orbit with a phased array antenna for navigation signals and a laser retroreflector.

In addition to navigation services, the satellite carries a satellite-based augmentation system (SBAS) and an improved radio determination satellite service to provide short message services.

The Long March 3B is expected to be in use again around mid-November before launching the Chang'e-4 lunar far side lander and rover mission in early December.

China's answer to GPS

The Beidou navigation system, which takes its name from the Chinese asterism equivalent to the Plough or Big Dipper, is China's answer to the US Global Positioning System (GPS), Russia's GLONASS and Europe's Galileo global navigation satellite system (GNSS) constellations.

The completed system of 35 operational Beidou satellites will have 27 satellites in MEO at around 22,000 km altitude, five in geostationary orbit and three more in inclined geosynchronous orbits at 35,786 km, providing global GNSS coverage with a positioning accuracy of 2.5 metres.

Systems like GPS and Beidou provide civilian applications such as navigation for shipping and road traffic, mapping and surveying and are used wide range of sectors. They also assist military forces from space, facilitating targeting, positioning and locating, and the synchronising of operations. The development of Beidou will end previous Chinese military reliance on GPS.

Beidou, also referred to as BDS, is considered a project of national significance and part of the country's national security, economic and social development.

Rising Government Provision For Acceptance Of Modern Agricultural Approaches Will Have Positive Impact On Growth Of Precision Farming

The global Precision Farming Market is anticipated to reach USD 10.23 billion by 2025, according to a new report by Grand View Research, Inc. Precision farming, also known as site-specific crop management or satellite farming, is a concept of farm management that uses information technology to ensure optimum health and productivity of the crops. The precision farming technique largely depends on specialized equipment, IT, and software services. Furthermore, this farming technique involves a broad range of technologies including bio-engineering, robotics & automation, imagery & sensors, and big data, as well as digitization. The adoption of site-specific crop management would reduce the cost of nitrogen fertilizers, improve crop yields, reduce the usage of pesticides, provide better farm records that are essential for sale, and provide better information for management decisions.

The growing application of telematics in agriculture is anticipated to drive the demand for precision farming over the projected period. Telematics services include tracking devices using Global Navigation Satellite System (GNSS) to show the position of the equipment for management purposes. It also offers a real-time view of the position, coolant temperature, ground speed, and the duration before which maintenance is required. Major agriculture equipment manufacturers are adopting telematics services for their equipment in order to improve farm efficiency.

Improving the efficiency of agricultural machinery reduces the cost of agricultural operations and maximizes profitability. Additionally, good management might reduce the environmental impact. Farmers are increasingly using telematics technology to collect and manage information from their field equipment.

Telematics technology is used to capture and transfer data from the farm equipment through sensors installed on tractors and other field monitoring equipment. The increasing adoption of telematics systems by agricultural equipment companies is expected to drive the demand in the precision farming market.

Trimble Ag Software’s Connected Farm uses cellular and wireless technology to transfer data. Furthermore, the company uses Farm Works software to manage data transferred from the farm equipment. Raven Industries, Inc. provides a telematics service called Slingshot. It uses cell phone networks to offer data transfer, real-time kinematic GPS correction signals, and real-time technical support in the fields. Additionally, Slingshot allows users to track the vehicle’s location.

However, the lack of technology adoption among farmers is likely to restrain the market growth over the forecast period. The lack of standards and limitations on the exchange of data between the systems limits the adoption of modern agricultural machinery of different brands and companies. Furthermore, farmers lack independent consulting and advisory services owing to the lack of validated agronomic models for Variable Rate Technology (VRT) to make a decision on investments. Additionally, independent services are not linked to co-operatives, government bodies, and farmer’s associations where farmers can get additional information to take decisions.

Browse More Info @ www.grandviewresearch.com/industry-analysis/precision-farming-market

Further key findings from the report suggest:

The increasing government support for adopting modern agricultural techniques and the growing need for monitoring crop health for yield production are expected to drive the market demand.

The services segment is expected to portray a significant growth rate over the projected period, growing at a CAGR of 16.0%.

The cloud-based software model is anticipated to gain market share over the projected period as it reduces energy consumption and large data storage, and facilitates cost saving.

Innovations in GPS mapping and related applications concerning farms are helping farmers to operate more efficiently and increase their profit margins.

Drones are expected to witness enormous growth in the agriculture field as they are increasingly used in monitoring irrigation systems.

Soil monitoring is a major application of the yield monitoring segment as it is used to detect soil properties to increase the yield.

Digital revolution in the agricultural sector along with government financial incentives to farms is likely to drive the demand in the European precision farming market in the coming years.

The key players of the precision farming market include Agribotix LLC (U.S.), Deere & Company (U.S.), SST Development Group, Inc. (U.S.), Farmers Edge, Inc. (Canada), and Granular, Inc. (U.S.), among others

Read Our Blog: www.grandviewresearch.com/blogs/technology

Grand View Research has segmented the precision farming market based on offering, application, and region:

Precision Farming/Agriculture Offering Outlook (Revenue, USD Million, 2014–2025)

Hardware

Automation & control systems

Drones

Application control devices

Guidance systems

GPS

GIS

Remote sensing

Handheld

Satellite sensing

Driverless tractors

Mobile devices

VRT

Map-based

Sensor-based

Wireless modules

Bluetooth technology

Wi-Fi technology

Zigbee technology

RF technology

Sensing devices

Soil sensor

Nutrient sensor

Moisture sensor

Temperature sensor

Water sensors

Climate sensors

Others

Antennas/access points

Software

Web-based

Cloud-based

Services

System integration & consulting

Maintenance & support

Managed services

Data services

Analytic services

Farm operation services

Assisted professional services

Supply chain management services

Climate information services

Precision Farming/Agriculture Application Outlook (Revenue, USD Million, 2014–2025)

Yield monitoring

On-farm

Off-farm

Field mapping

Crop scouting

Weather tracking & forecasting

Irrigation management

Inventory management

Farm labor management

Precision Farming/Agriculture Regional Outlook (Revenue, USD Million, 2014–2025)

North America

US.

Canada

Mexico

Europe

Germany

UK

France

Russia

Asia Pacific

China

Japan

India

Australia

South America

Brazil

Middle East and Africa (MEA)

Browse Press Release of this Report: www.grandviewresearch.com/press-release/global-precision-farming-market

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

For More Information: www.grandviewresearch.com

Improving The Odds with Satellite Beacons

Improving The Odds with Satellite Beacons,

Courtesy of ACR

For most sailors, buying search-and-rescue equipment is akin to purchasing earthquake insurance — something wise homeowners carry but hope to never, ever use. Take the well-documented example of Leopard, a 57-foot catamaran that was some 400 nautical miles north of the Dominican Republic, sailing south-southeast en route to St. Maarten on the evening of November 16, 2016. Capt. Charles Nethersole was aboard with crewmembers Carolyn Bailey and Bert Jno Lewis as Leopard negotiated 18-knot winds and lumpy seas with a double tuck in her mainsail. Realizing that they were overcanvased, Nethersole, a professional captain with 41 years of experience, and Lewis reefed the staysail while Bailey prepared dinner.

Nethersole and Lewis had just entered Leopard’s pilothouse, with Nethersole at the interior helm, when a meteorological juggernaut of wind and waves arrived via the starboard quarter.

“The boat got literally picked up,” said Nethersole, positing that they crossed tacks with a vortex-triggered pressure drop. “It was like being in an elevator. We went up, and then we just went over.”

The sea-smart crew quickly grabbed their ditch bag, immersion-survival suits and Leopard’s life raft, and escaped the saloon for the (relative) safety of the inverted wingdeck, where Nethersole activated the boat’s ACR GlobalFix Pro EPIRB. Several hours later, a U.S. Coast Guard C-130 arrived and directed the Mexico-bound bulk carrier Aloe to their rescue.

While you can bet your keel that abandoning ship was the last thing on the Leopard crew’s mind three minutes before encountering their crisis, their story highlights the four critical components to a successful search-and-rescue operation, namely the ability to alert, locate, track and rescue a stricken vessel or mariner. Given that Leopard’s emergency position-indicating radio beacon, or EPIRB, continuously reported its GPS location, along with its vessel-­registered 406 MHz emergency satellite-­communications signal, rescuing authorities were quickly alerted to the emergency and updated with the EPIRB’s position information. This let the Coast Guard pinpoint the catamaran and direct its rescue.

Yet while Nethersole and company enjoyed a textbook-­perfect rescue, this would not have been possible without the International Cospas-Sarsat Programme, which began in 1979 as a collaborative effort by the United States, France and the former Soviet Union to provide a satellite monitoring and emergency-signal relay service that’s free of charge to all mariners.

Today, Cospas-Sarsat involves 43 nations that maintain an always-listening system of satellites and air-, land- and water-based assets. While contemporary search-and-rescue equipment and systems, including Cospas-Sarsat, have already saved at least 40,000 lives, the next-generation satellite-­monitoring system promises better and faster service, along with the ability to support more sophisticated beacons, the first of which are already hitting chandlery shelves.

A Multilayered Network

Things get complicated when dozens of satellites, ground-monitoring stations and different rescuing authorities, such as the Coast Guard, are involved. However, Cospas-Sarsat’s schema involves a five-step process that begins when a satellite-mounted transponder detects a 406 MHz emergency signal from an EPIRB or an individually registered personal locator beacon, or PLB.

The transponder either passes the information directly to an earth-based receiver, known as a local user terminal, or it stores and forwards when a ground station, or LUT, comes into range. Once the LUT receives the signal, it’s sent to a mission control center that’s located in the country of the beacon’s registration. From there, the mission control center directs the message to a rescue coordination center, which conducts the physical rescue.

The speed with which an emergency signal reaches a rescue coordination center depends on where the emergency signal originated and what kind of satellite received the call. Cospas-Sarsat currently has two fully operational satellite constellations aloft, with a third under construction. Each system works in a different manner, but collectively, these different constellations provide redundant and complementary safety layers.

Cospas-Sarsat’s first-­generation and still active Low-Altitude Earth Orbit Search and Rescue system is a constellation of five satellites. LEOSAR satellites use Doppler processing to pinpoint a beacon’s location, without a GPS position sent from the EPIRB or PLB. LEOSAR coverage is noncontinuous and requires multiple satellite passes, each taking roughly 100 minutes, to triangulate a beacon’s latitude and longitude. Also, because these satellites sometimes store information while waiting for contact with a ground station, a rescue operation can be further delayed.

Cospas-Sarsat’s second-­generation Geostationary Orbit Search and Rescue system, known as GEOSAR, involves a constellation of six geostationary satellites that provide continuous coverage and the ability to quickly alert a ground station to an active 406 MHz signal. Unlike LEOSAR, GEOSAR satellites can’t use Doppler processing to self-calculate a beacon’s position, so contemporary EPIRBs and PLBs, including ACR’s GlobalFix Pro, which Leopard’s crew used, include a built-in global navigation satellite system (GNSS) receiver, allowing the beacon to determine its exact position information from GPS (United States), GLONASS (Russia) or Galileo (EU) satellites. The position fix is then sent by the rescue beacon to the satellite and relayed to the appropriate rescue agencies. While GNSS information dramatically reduces the amount of time it takes for rescuers to arrive on scene, not all EPIRBs are currently required to carry GNSS receivers. When buying a rescue beacon, it’s important to know if it includes this feature.

The third layer in Cospas-Sarsat’s ever-evolving network, the Medium-Altitude Earth Orbit Search and Rescue system, known as MEOSAR, won’t be fully operational until 2021 or 2022, but once complete, it will involve a constellation of 72 different satellites, plus upgraded terrestrial assets, including significantly advanced antennas.

MEOSAR incorporates the best of its forebears, namely LEOSAR’s Doppler processing and GEOSAR’s GPS-positioning capabilities. Once complete, MEOSAR will be able to quickly triangulate a beacon’s signal and nearly instantaneously share this information with an LUT. One caveat, however: MEOSAR will not offer coverage in the highest latitudes.

While Nethersole and company endured some worrisome hours before the C-130 arrived, in the future, those in peril will not have to wait to see if their signal was received and whether rescuers are on their way. Galileo satellites within MEOSAR’s constellation will include a return link signal (operational with properly equipped EPIRBs by 2018) that notifies a beacon user when their signal has been received.

This peace of mind can prevent life-and-death dominoes from toppling. Sean McCrystal, McMurdo’s marketing manager of search-and-rescue solutions, recalls the story of four Irish mariners whose vessel sank. They activated their EPIRB, but a crisis of confidence ensued; convinced that their signals hadn’t been received, three of them swam for shore and drowned. The fourth was rescued. “They made their decision because they didn’t think help was coming,” says McCrystal.

New Features Soon

In addition to being faster, MEOSAR’s advent, coupled with recently issued Federal Communications Commission regulations, allows EPIRB manufacturers to innovate in life-saving ways. For example, McMurdo’s recently released FastFind G8 AIS broadcasts four signals. Two are data feeds associated with satellites, 406 MHz and 121.5 MHz (a legacy frequency employed by rescuing authorities for final-mile homing using specialized equipment), and the other two incorporate a GPS location and automatic identification system (AIS) data, which alerts all local AIS-equipped traffic to the emergency signal so they can quickly render assistance.

This is a critical upgrade because previous EPIRBs only transmitted satellite-­communication signals, meaning that while an ­official rescuing agency gets notified, nearby traffic is electronically blind to any nearby plights. By also broadcasting an AIS signal, the crews of AIS-enabled boats will see emergency alerts on their chart plotter or AIS display. And if their own EPIRB has accidentally activated, it will stave off false alarms. As of this writing, McMurdo is the only manufacturer to offer a multi-signal EPIRB, but other players likely will follow.

Interestingly, while manufacturers are adding AIS to their EPIRBs, MEOSAR will theoretically allow them to remove other frequencies. “Next-generation EPIRBs won’t need a GNSS-derived GPS location because of the sheer number of satellites, and also because ground stations are so much more accurate,” says McCrystal.

Still, while MEOSAR’s Doppler location-processing capabilities may remove the need for GNSS, the data broadcast is likely to be included because Cospas-Sarsat employs a multilayered approach.

“Technology is always getting better — for example, the additional level of satellites — but LEOSAR and GEOSAR are still fully operative and will continue to work,” says Nichole Kalil, ACR Electronics’ public affairs and media manager. “MEOSAR is the icing on the cake.” Because of this, EPIRBs will need GNSS receivers (at least) until older satellites are retired. In fact, the FCC is requiring that all new EPIRBs sold in the United States after January 1, 2019, be GNSS-equipped.

Besides a quicker rescue, sailors will benefit in other ways as manufacturers introduce new products. As with consumer electronics, feature lists are becoming richer while price tags are getting leaner, thus lowering an important barrier of entry. For example, a decade ago, a non-GNSS-equipped EPIRB sold for around $1,000. Today, $400 buys a contemporary GNSS-equipped beacon.

“You’re going to spend that or more on your Yeti cooler,” says Kalil. Additionally, EPIRB rental programs, such as the one that ACR and McMurdo have created with the BoatUS Foundation or that ACR has established with Sea Tow, help make safety gear readily attainable.

On a Personal Note

While EPIRBs are registered to vessels, PLBs are intended to be worn by individual crewmembers, which means you can carry one whenever you go out on the water, and on any boat.

PLBs that transmit 406 MHz satellite signals must be registered to individual sailors, just as an EPIRB gets registered to a particular boat. When activated, they connect with the Cospas-Sarsat network to alert rescuers ashore.

AIS-broadcasting personal beacons, which transmit on VHF radio frequencies, are programmed to send a signal to your own vessel and chart plotter or other AIS-equipped boats in the vicinity, but an alarm will not be picked up by any satellite network.

Examples of contemporary PLBs and AIS man-overboard devices include ACR’s ResQLink+ PLB and its new AISLink MOB, and McMurdo’s FastFind 220 and SmartFind 220.

In a perfect world, sailors could buy one device that would operate in both modes, but as of this writing, the FCC doesn’t allow a single personal device to broadcast both 406 MHz and AIS signals. Part of the issue, at least, is because of battery-life requirements and the limitations of just how big a power supply can be built into a pocket-size beacon. However, regulations remain the highest hurdle to jump before a single PLB-type device will be legally allowed to broadcast both 406 MHz and AIS signals.

As a result, some safety-­conscious sailors carry multiple devices to ensure their emergency signals are heard by rescue authorities, local marine traffic and their own boat.

“It’s something the market wants,” says Kalil, adding that ACR is listening. Hopefully, the FCC will change its regulations, but until then, the best move is to stack the odds in your favor because the costs are relatively small and the return on investment is immense.

Manufacturers also build GPS communicators/messengers that can reliably be used in emergencies. Examples of this equipment include Garmin’s inReach and the Spot Satellite Messenger. Depending on the model, users can employ these devices to send pre-scripted messages to friends and family (e.g., “All good on our end.”), along with latitude and longitude information. Some models also let people on shore ping the unit to learn the user’s location information, and these devices also come with an SOS button that directly contacts the privately operated GEOS Rescue Coordination Center with the user’s position and personal information. It’s important to remember that GEOS is a private U.S.-based company, not an internationally funded, multinational government program like Cospas-Sarsat. However, the two organizations often contact the same rescue agencies in the event of an emergency.

Additionally, Garmin’s inReach devices can be paired with a user’s smartphone, taking advantage of its keyboard to type, send and receive short text messages via the unit’s Iridium satellite communication connection. Some inReach models include a built-in chart-plotter screen so the device itself can be used for navigation. Other units can share information via Bluetooth with a smartphone and tablet, providing those devices with location data. Users can also download weather reports. Unlike the other equipment discussed in this article, both the Spot and Garmin’s inReach require a monthly or yearly subscription service. However, these plans can sometimes be “winterized” during months of inactivity.

– – –

David Schmidt is CW’s ­electronics editor.

,,https://www.marineclarity.com/improving-the-odds-with-satellite-beacons/,admin

Precision Farming Market Competitive Landscape By Company Profile, Financial Performance, Product And Latest Strategies 2014-2025

Global Precision Farming Market is anticipated to reach USD 10.23 billion by 2025, according to a new report by Grand View Research, Inc. Precision farming, also known as site-specific crop management or satellite farming, is a concept of farm management that uses information technology to ensure optimum health and productivity of the crops. The precision farming technique largely depends on specialized equipment, IT, and software services. Furthermore, this farming technique involves a broad range of technologies including bio-engineering, robotics & automation, imagery & sensors, and big data, as well as digitization. The adoption of site-specific crop management would reduce the cost of nitrogen fertilizers, improve crop yields, reduce the usage of pesticides, provide better farm records that are essential for sale, and provide better information for management decisions.

The growing application of telematics in agriculture is anticipated to drive the demand for precision farming over the projected period. Telematics services include tracking devices using Global Navigation Satellite System (GNSS) to show the position of the equipment for management purposes. It also offers a real-time view of the position, coolant temperature, ground speed, and the duration before which maintenance is required. Major agriculture equipment manufacturers are adopting telematics services for their equipment in order to improve farm efficiency.

Improving the efficiency of agricultural machinery reduces the cost of agricultural operations and maximizes profitability. Additionally, good management might reduce the environmental impact. Farmers are increasingly using telematics technology to collect and manage information from their field equipment.

Telematics technology is used to capture and transfer data from the farm equipment through sensors installed on tractors and other field monitoring equipment. The increasing adoption of telematics systems by agricultural equipment companies is expected to drive the demand in the precision farming market.

Trimble Ag Software’s Connected Farm uses cellular and wireless technology to transfer data. Furthermore, the company uses Farm Works software to manage data transferred from the farm equipment. Raven Industries, Inc. provides a telematics service called Slingshot. It uses cell phone networks to offer data transfer, real-time kinematic GPS correction signals, and real-time technical support in the fields. Additionally, Slingshot allows users to track the vehicle’s location.

However, the lack of technology adoption among farmers is likely to restrain the market growth over the forecast period. The lack of standards and limitations on the exchange of data between the systems limits the adoption of modern agricultural machinery of different brands and companies. Furthermore, farmers lack independent consulting and advisory services owing to the lack of validated agronomic models for Variable Rate Technology (VRT) to make a decision on investments. Additionally, independent services are not linked to co-operatives, government bodies, and farmer’s associations where farmers can get additional information to take decisions.

Full Research Report on Global Precision Farming Market Analysis: http://www.grandviewresearch.com/industry-analysis/precision-farming-market

Further key findings from the report suggest:

The increasing government support for adopting modern agricultural techniques and the growing need for monitoring crop health for yield production are expected to drive the market demand.

The services segment is expected to portray a significant growth rate over the projected period, growing at a CAGR of 16.0%.

The cloud-based software model is anticipated to gain market share over the projected period as it reduces energy consumption and large data storage, and facilitates cost saving.

Innovations in GPS mapping and related applications concerning farms are helping farmers to operate more efficiently and increase their profit margins.

Drones are expected to witness enormous growth in the agriculture field as they are increasingly used in monitoring irrigation systems.

Soil monitoring is a major application of the yield monitoring segment as it is used to detect soil properties to increase the yield.

Digital revolution in the agricultural sector along with government financial incentives to farms is likely to drive the demand in the European precision farming market in the coming years.

The key players of the precision farming market include Agribotix LLC (U.S.), Deere & Company (U.S.), SST Development Group, Inc. (U.S.), Farmers Edge, Inc. (Canada), and Granular, Inc. (U.S.), among others

View more reports of this category by Grand View Research at: http://www.grandviewresearch.com/industry/emerging-and-next-generation-technologies

Grand View Research has segmented the Global Precision Farming Market based on offering, application, and region:

Precision Farming/Agriculture Offering Outlook (Revenue, USD Million, 2014 - 2025)

Hardware

·         Automation & control systems

§  Drones

§  Application control devices

§  Guidance systems

·         GPS

·         GIS

§  Remote sensing

·         Handheld

·         Satellite sensing

§  Driverless tractors

§  Mobile devices

§  VRT

·         Map-based

·         Sensor-based

§  Wireless modules

·         Bluetooth technology

·         Wi-Fi technology

·         Zigbee technology

·         RF technology

·         Sensing devices

§  Soil sensor

·         Nutrient sensor

·         Moisture sensor

·         Temperature sensor

§  Water sensors

§  Climate sensors

§  Others

·         Antennas/access points

·         Software

·         Web-based

·         Cloud-based

·         Services

·         System integration & consulting

·         Maintenance & support

·         Managed services

§  Data services

§  Analytic services

§  Farm operation services

·         Assisted professional services

§  Supply chain management services

§  Climate information services

Precision Farming/Agriculture Application Outlook (Revenue, USD Million, 2014 - 2025)

On-farm

Off-farm

Precision Farming/Agriculture Regional Outlook (Revenue, USD Million, 2014 - 2025)

U.S.

Canada

Mexico

Germany

UK

France

Russia

China

Japan

India

Australia

Brazil

View Press Release Of this research report by Grand View Research: http://www.grandviewresearch.com/press-release/global-precision-farming-market          

About Grand View Research

Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials and healthcare.

For more information: www.grandviewresearch.com

Apple Inc.

Apple Inc gay porn (NASDAQ: AAPL, formerly Apple Computer, Inc.) is an American multinational that designs and markets consumer electronics, computer software and personal computers. The company's best-known hardware products include the Macintosh computer family, iPod, iPhone and iPad. Apple software includes the Mac OS X operating system. iTunes Media Browser. ILife family of multimedia and creativity software; iWork productivity suite Aperture, professional photo package; Final Cut Studio is a suite of professional audio and film industry software products. Logic Studio is a collection of music creation tools. And iOS, mobile operating systems. As of August 2010, the company has 301 retail outlets in 10 countries and operates an online store that sells hardware and software products. Founded on April 1, 1976 in Cupertino, Calif., And founded on January 3, 1977, the company was named Apple Computer, Inc. for the first 30 years, but on January 9, 2007, the word "Computer" Deleted In addition to its existing focus on personal computers, the company is continuing to expand into the consumer electronics market. As of September 25, 2010, Apple has 46,600 full-time employees and 2,800 temporary full-time employees with annual revenues of $ 65.23 billion. For various reasons, a comprehensive aesthetic design philosophy for a unique advertising campaign, Apple has earned a unique reputation in the consumer electronics industry. This includes the customer base that is dedicated to the company and brand, especially the United States. Fortune released Apple, the most respected company in the United States, in 2008 in 2008, 2009 and 2010. The company also received broad criticism of the contractor's labor, environment and business practices Global Positioning System (GPS) is a space-based Global Navigation Satellite System (GNSS) that provides reliable location and time information in any weather and place on the planet anytime, anywhere in sight. More than four GPS satellites are maintained by the US government and are freely accessible to anyone with a GPS receiver. GPS was developed and implemented by the Department of Defense (USDOD) and originally operated with 24 satellites. It was founded in 1973 to overcome the limitations of previous navigation systems. In addition to GPS, other systems are in use or under development. Russia GLObal navigation satellite system (GLONASS) was used only for Russian military until 2007. There is also the European Union's planned Chinese compass navigation system and the Galileo positioning system. GPS consists of three parts: a spatial segment, a control segment, and a user segment. The US Air Force develops, maintains and operates space and controlled areas. GPS satellites broadcast signals in space, and each GPS receiver uses these signals to calculate the three-dimensional position (latitude, longitude, and altitude) and the current time. The spatial segment consists of 24 to 32 satellites in the mid-earth orbit and also includes a payload adapter for the booster needed to get into orbit. The control segments consist of a master control station, an alternate master control station, and dedicated and shared ground antennas and monitor station hosts. The user segment consists of hundreds of thousands of military users of US and secure GPS precision location services, and tens of millions of private, commercial and scientific user standard positioning services (see GPS navigation devices). For more information, see http://mobask.net/402602-gpsphone-Apple.html.

Apple Inc.

App gay porn e Inc. (NASDAQ: AAPL; before Apple Computer, Inc.) is a multi-American company that sells and sells electronics of users, computers, and computers. The most popular company hardware products include a computerized Macintosh line, iPod, iPhone and iPad. Apple software integrates the Mac OS X app; iTunes news browser; Suite suite for multimedia and creative software; i-suite of iWork for software production; Opening, active photo package; Final Cut Studio, suite of technical audio and software in the film industry; Logic Studio, suite of music production tools; and iOS, mobile operating system. Since August 2010, the company operates at 301 stores in 10 stores in 10 countries, as well as an online store where hardware and software products are sold. Founded on April 1, 1976 in Cupertino, California, and was installed on January 3, 1977, the company was called Apple Computer, Inc., for the first 30 years, but removed the "Computer" name on January 9, 2007, to reflect the continuous expansion of the company into a consumer market more than traditional focus on their computers. Since September 25, 2010, Apple had 46,600 employees and 2,800 full-time employees worldwide and had a $ 65.23 billion investment year. For various reasons as its philosophy of designing comprehensive designs in marketing campaigns, Apple has created a unique reputation in the electric consumer industry. This includes the customer base provided by the company and its product, especially in the United States. The Fortune magazine whose name is Apple is the most respected company in the United States in 2008, and on earth in 2008, 2009, and 2010. The company has received ongoing criticism on its employees, The Global Positioning System (GPS) is a satellites for global navigation navigation (GNSS) based on a reliable and reliable space space and space in all weather conditions and at any time anywhere or near Earth where there is also a line that does not appear on four satellite or more. It is maintained by the United States Government and is freely available to anyone with a GPS receiver. The GPS was created and recognized by the U.S. Department of Defense. (USDOD) and initially was conducted by 24 satellites. Founded in 1973 to overcome the limitations of pre-travel plans. In addition to other GPS applications are used or under development. GLObal GPS NAvigation Satellite (GLONASS) GPS system would be used for Russia's war until 2007. There is an organized system for Compass Compass and the Galileo systeming positioning of the European Union (EU). The GPS has three components: part of the space, part of the control, and part of the user. U.S. Air Force. begins, retains and operates space and controls parts. Satellite satellites broadcast satellites, and each GPS receiver uses these features to see its third location (length, length, height) and current time. The space is made up of 24 to 32 satellites in central orbit and includes upload tables for the necessary boosters to make them orbit. The management section is composed of the main control channel, another fixed control channel, and the dedicated and shared antenna world and monitoring channels. The user component is composed of hundreds of thousands of U.S. users. with its secure GPS positioning Positioning Service, and tens of thousands of public, commercial and scientific services Service Standard Positioning Service (see GPS viewing devices). for more information- http://mobask.net/402602-gpsphone-Apple.html

Apple Inc.

Apple Inc gay porn (NASDAQ: AAPL, formerly Apple Computer, Inc.) is an American multinational that designs and markets consumer electronics, computer software and personal computers. The company's best-known hardware products include the Macintosh computer family, iPod, iPhone and iPad. Apple software includes the Mac OS X operating system. iTunes Media Browser. ILife family of multimedia and creativity software; iWork productivity suite Aperture, professional photo package; Final Cut Studio is a suite of professional audio and film industry software products. Logic Studio is a collection of music creation tools. And iOS, mobile operating systems. As of August 2010, the company has 301 retail outlets in 10 countries and operates an online store that sells hardware and software products. Founded on April 1, 1976 in Cupertino, Calif., And founded on January 3, 1977, the company was named Apple Computer, Inc. for the first 30 years, but on January 9, 2007, the word "Computer" Deleted In addition to its existing focus on personal computers, the company is continuing to expand into the consumer electronics market. As of September 25, 2010, Apple has 46,600 full-time employees and 2,800 temporary full-time employees with annual revenues of $ 65.23 billion. For various reasons, a comprehensive aesthetic design philosophy for a unique advertising campaign, Apple has earned a unique reputation in the consumer electronics industry. This includes the customer base that is dedicated to the company and brand, especially the United States. Fortune released Apple, the most respected company in the United States, in 2008 in 2008, 2009 and 2010. The company also received broad criticism of the contractor's labor, environment and business practices Global Positioning System (GPS) is a space-based Global Navigation Satellite System (GNSS) that provides reliable location and time information in any weather and place on the planet anytime, anywhere in sight. More than four GPS satellites are maintained by the US government and are freely accessible to anyone with a GPS receiver. GPS was developed and implemented by the Department of Defense (USDOD) and originally operated with 24 satellites. It was founded in 1973 to overcome the limitations of previous navigation systems. In addition to GPS, other systems are in use or under development. Russia GLObal navigation satellite system (GLONASS) was used only for Russian military until 2007. There is also the European Union's planned Chinese compass navigation system and the Galileo positioning system. GPS consists of three parts: a spatial segment, a control segment, and a user segment. The US Air Force develops, maintains and operates space and controlled areas. GPS satellites broadcast signals in space, and each GPS receiver uses these signals to calculate the three-dimensional position (latitude, longitude, and altitude) and the current time. The spatial segment consists of 24 to 32 satellites in the mid-earth orbit and also includes a payload adapter for the booster needed to get into orbit. The control segments consist of a master control station, an alternate master control station, and dedicated and shared ground antennas and monitor station hosts. The user segment consists of hundreds of thousands of military users of US and secure GPS precision location services, and tens of millions of private, commercial and scientific user standard positioning services (see GPS navigation devices). For more information, see http://mobask.net/402602-gpsphone-Apple.html.

Global Geographic Information System (GIS) Market 2018 Share, Trend, Segmentation and Forecast to 2022

Global Geographic Information System (GIS) Industry

New Study On “2018-2022 Geographic Information System (GIS) Market Global Key Player, Demand, Growth, Opportunities and Analysis Forecast” Added to Wise Guy Reports Database

This report mainly introduces volume and value market share by players, by regions, by product type, by consumers and also their price change details. As a Detailed Analysis report, it covers all details inside analysis and opinion in Geographic Information System (GIS) industry.

This report splits Geographic Information System (GIS) market By Hardware, By Function, which covers the history data information from 2012 to 2016 and forecast from 2017 to 2022.

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This report focuses Global market, it covers details as following:

Major Companies Autodesk Inc. (US) Bentley System, Incorporated (US) Environmental Systems Research Institute, Inc. (Esri) (US) General Electric Co. (US) Hexagon AB (Sweden) Pitney Bowes Inc. (US) Topcon Corporation (Japan) Trimble Inc. (US) Blue Marble Geographics (US) Caliper Corporation (US) Computer Aided Development Corporation Limited (Cadcorp) (UK) Geosoft Inc. (Canada) Handheld Group (Sweden) Harris Corporation (US) Hi-Target Surveying Instrument Co. Ltd. (China) MacDonald, Dettwiler and Associates Ltd. (Canada) PASCO CORPORATION (Japan) Beijing Unistrong Science & Technology Co., Ltd. (China) Champion Instruments, LLC (US) Golden Software LLC (US) SuperMap Software Co., Ltd. ?(China)

Main Regions North America United States Canada Latin America Mexico Brazil Argentina Others Europe Germany United Kingdom France Italy Spain Russia Netherland Others Asia & Pacific China Japan India Korea Australia Southeast Asia Indonesia Thailand Philippines Vietnam Singapore Malaysia Others Africa & Middle East South Africa Egypt Turkey Saudi Arabia Iran Others

Main Product Type Geographic Information System (GIS) Market, by Hardware GIS Collectors Total Stations LIDAR GNSS/GPS Antennas Imaging Sensors Geographic Information System (GIS) Market, by Function Mapping Surveying Telematics and Navigation Location-Based Services

Main Applications Agriculture Construction Transportation Utilities Mining Oil & Gas

Also Read: http://heraldkeeper.com/tech/global-geographic-information-system-gis-market-2018-share-trend-segmentation-forecast-2022-98336.html

Some Major Points from Table of content:

Global Geographic Information System (GIS) Detailed Analysis Report 2017-2022 Chapter One Geographic Information System (GIS) Market Overview 1.1 Global Geographic Information System (GIS) Market Sales Volume Revenue and Price 2012-2022 1.2 Geographic Information System (GIS), By Hardware 2012-2022 1.2.1 Global Geographic Information System (GIS) Sales Market Share by Hardware 2012-2022 1.2.2 Global Geographic Information System (GIS) Revenue Market Share by Hardware 2012-2022 1.2.3 Global Geographic Information System (GIS) Price by Hardware 2012-2022 1.2.4 GIS Collectors 1.2.5 Total Stations 1.2.6 LIDAR 1.2.7 GNSS/GPS Antennas 1.2.8 Imaging Sensors 1.3 Geographic Information System (GIS), by Function 2012-2022 1.3.1 Global Geographic Information System (GIS) Sales Market Share by Function 2012-2022 1.3.2 Global Geographic Information System (GIS) Revenue Market Share by Function 2012-2022 1.3.3 Global Geographic Information System (GIS) Price by Function 2012-2022 1.3.4 Mapping 1.3.5 Surveying 1.3.6 Telematics and Navigation 1.3.7 Location-Based Services

Chapter Two Geographic Information System (GIS) by Regions 2012-2017 2.1 Global Geographic Information System (GIS) Sales Market Share by Regions 2012-2017 2.2 Global Geographic Information System (GIS) Revenue Market Share by Regions 2012-2017 2.3 Global Geographic Information System (GIS) Price by Regions 2012-2017 2.4 North America 2.4.1 United States 2.4.2 Canada 2.5 Latin America 2.5.1 Mexico 2.5.2 Brazil 2.5.3 Argentina 2.5.4 Others in Latin America 2.6 Europe 2.6.1 Germany 2.6.2 United Kingdom 2.6.3 France 2.6.4 Italy 2.6.5 Spain 2.6.6 Russia 2.6.7 Netherland 2.6.8 Others in Europe 2.7 Asia & Pacific 2.7.1 China 2.7.2 Japan 2.7.3 India 2.7.4 Korea 2.7.5 Australia 2.7.6 Southeast Asia 2.7.6.1 Indonesia 2.7.6.2 Thailand 2.7.6.3 Philippines 2.7.6.4 Vietnam 2.7.6.5 Singapore 2.7.6.6 Malaysia 2.7.6.7 Others in Southeast Asia 2.8 Africa & Middle East 2.8.1 South Africa 2.8.2 Egypt 2.8.3 Turkey 2.8.4 Saudi Arabia 2.8.5 Iran 2.8.6 Others in Africa & Middle East

Chapter Three Geographic Information System (GIS) by Players 2012-2017 3.1 Global Geographic Information System (GIS) Sales Volume Market Share by Players 2012-2017 3.2 Global Geographic Information System (GIS) Revenue Share by Players 2012-2017 3.3 Global Top Players Geographic Information System (GIS) Key Product Model and Market Performance 3.4 Global Top Players Geographic Information System (GIS) Key Target Consumers and Market Performance

Chapter Four Geographic Information System (GIS) by Consumer 2012-2017 4.1 Global Geographic Information System (GIS) Sales Market Share by Consumer 2012-2017 4.2 Agriculture 4.3 Construction 4.4 Transportation 4.5 Utilities 4.6 Mining 4.7 Oil & Gas 4.8 Consuming Habit and Preference

Chapter Five Global Top Players Profile 5.1 Autodesk Inc. (US) 5.1.1 Autodesk Inc. (US) Company Details and Competitors 5.1.2 Autodesk Inc. (US) Key Geographic Information System (GIS) Models and Performance 5.1.3 Autodesk Inc. (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.1.4 Autodesk Inc. (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.2 Bentley System, Incorporated (US) 5.2.1 Bentley System, Incorporated (US) Company Details and Competitors 5.2.2 Bentley System, Incorporated (US) Key Geographic Information System (GIS) Models and Performance 5.2.3 Bentley System, Incorporated (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.2.4 Bentley System, Incorporated (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.3 Environmental Systems Research Institute, Inc. (Esri) (US) 5.3.1 Environmental Systems Research Institute, Inc. (Esri) (US) Company Details and Competitors 5.3.2 Environmental Systems Research Institute, Inc. (Esri) (US) Key Geographic Information System (GIS) Models and Performance 5.3.3 Environmental Systems Research Institute, Inc. (Esri) (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.3.4 Environmental Systems Research Institute, Inc. (Esri) (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.4 General Electric Co. (US) 5.4.1 General Electric Co. (US) Company Details and Competitors 5.4.2 General Electric Co. (US) Key Geographic Information System (GIS) Models and Performance 5.4.3 General Electric Co. (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.4.4 General Electric Co. (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.5 Hexagon AB (Sweden) 5.5.1 Hexagon AB (Sweden) Company Details and Competitors 5.5.2 Hexagon AB (Sweden) Key Geographic Information System (GIS) Models and Performance 5.5.3 Hexagon AB (Sweden) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.5.4 Hexagon AB (Sweden) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross Margin 5.6 Pitney Bowes Inc. (US) 5.6.1 Pitney Bowes Inc. (US) Company Details and Competitors 5.6.2 Pitney Bowes Inc. (US) Key Geographic Information System (GIS) Models and Performance 5.6.3 Pitney Bowes Inc. (US) Geographic Information System (GIS) Business SWOT Analysis and Forecast 5.6.4 Pitney Bowes Inc. (US) Geographic Information System (GIS) Sales Volume Revenue Price Cost and Gross

Continued…..

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