Monday, 10 December 2018

Global Level Sensor Market to be worth US$5.29 bn by 2026

Global Level Sensor Market report provides analysis for the period 2016 – 2026, wherein the period from 2018 to 2026 is the forecast and 2017 is the base year. The data for 2016 has been included as historical information. The level sensor report covers all the sensor types, technology, applications and industry verticals playing significant role in the global level sensor market’s growth over the forecast period. The report also include various drivers, restraints, and opportunities expected to affect market’s growth during the above mention period. The study provides an entire perspective on the market’s growth in terms of revenue in US$ Mn and Thousand units across different geographical regions such as Asia Pacific, North America, Middle East & Africa, Europe, and South America.
The market overview section of the report demonstrates the market dynamics such as the drivers, restraints, and opportunities that influence the current nature and future status of the market, key indicators and trends. An attractiveness analysis has also been provided for every segment in the report, in order to provide a detailed understanding of the overall scenario in the level sensor market. Moreover, the report provides an overview of various marketing strategies adopted by the key players present in the market. Key market indicators also been included in the report providing significance of the factors that are capable of changing the market scenario. These indicators are expected to define the market position during the forecast period.
Global Level Sensor Market: Segmentation
Level Sensor Market has been segmented on the basis of sensor type, technology, applications and industry verticals. By sensor type, level sensor market is categorized mainly into following categories such as capacitance, conductive, float level, microwave/radar, optical, pneumatic, ultrasonic, vibrating point and others. By technology, it can be segmented as contact type and non-contact type. By application, it can be bifurcated as point level, continuous level and interface level.  By Industry vertical, the market can be segmented into chemical, food and beverage processing, oil & gas, pharmaceutical, waste & wastewater treatment and others.
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The report also highlights the competitive landscape of the global level sensor market, thereby positioning all the major players according to their presence in different regions of the world and recent key developments initiated by them in the market. The comprehensive global Level Sensor Market estimates are the result of our in-depth secondary research, primary interviews, and in-house expert panel reviews.

Anti-collision Sensor Market – Radar Sensors Hold the Highest Ground as a Leading Segment

As the automotive industry touches new peaks, especially in the emerging economies, the demand in the global market for anti-collision sensor is anticipated to increase at a CAGR of 19.8% during the forecast period of 2016 to 2024. In terms of revenue, the global anti-collision sensor market had a valuation of US$4.36 bn in 2016, which is estimated to reach US$18.54 bn by 2024.
This report on the global anti-collision sensor market aspires to serve as a credible business document for the audiences such as original equipment manufacturers, OEM technology solution providers, technology investors, and the suppliers and distributors of automotive components. The report contains an in-depth analysis of all the factors that may influence the demand in the near future, favorably or negatively, and profiles a number of key players in order to represent the nature of competitive landscape and latest strategic developments.
Technology-wise, the global market for anti-collision sensor is segmented into LiDar, radar, ultrasonic, and camera, whereas application-wise, the report bifurcates the market into adaptive cruise control, lane department warning system, forward collision warning system, blind spot monitor, and parking sensor. By end-user, the market has been categorized into automobile, maritime, rail, aerospace and defense, and other industries. Geographically, the report studies the opportunities available for the market players in the regions of North America, the Middle East and Africa, Asia Pacific, Europe, and Latin America.
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The increasing number of vehicles across the world and incrementing percentage of vehicular accidents are two of the primary drivers of the global anti-collision sensor market. Research and development in this field has led to improved anti-collision technology, which is further augmenting the demand. Moreover, in North America, the implementation of new car assessment program (NCAP) has further fueled the demand. NCAP checks the safety standards of all new vehicles launched in a given territory.
The trends of autonomous transportation system, rising application of UAV’s in scientific, agriculture, military, commercial, and recreation are some of the other factors propelling the demand in the global anti-collision sensor market. Conversely, high cost associated with these sensors is hindering the market from achieving its full potential, especially in the cost-effective regions of Asia Pacific.

Rising Demand for Portable Barcode Scanners in the Retail Industry drive the Global Photodiode Sensors Market

This comprehensive report by Transparency Market Research analyzes and forecasts the “Photodiode Sensor” market at the global and regional levels. The report provides analysis for the period 2016–2026, wherein 2018–2026 is the forecast period and 2017 is the base year. An in-depth and unbiased market assessment has been made to offer readers in-depth and accurate analysis. The report emphasizes all major trends likely to play a key role in growth of the photodiode sensors market from 2018 to 2026. It also focuses on restraining factors, market drivers, and opportunities for the photodiode sensors market. The study provides a complete perspective on the photodiode sensors market in terms of value (in US$ Mn) and volume (Million Units) across various geographies including Asia Pacific, South America, North America, Middle East & Africa, and Europe.
The report includes detailed value chain analysis, which is focused to offer a widespread view of the global photodiode sensors market. Porter’s five forces analysis is also provided to understand the competition scenario in the global photodiode sensors market. The study incorporates market attractiveness analysis, wherein market segments based on photodiode type, wavelength, material, and end-use industry have been benchmarked based on their market size, growth rate, and attractiveness. In order to offer a complete analysis of the overall competition scenario in the photodiode sensors market, attractiveness analysis of every geographic region mentioned in the report has been provided.
The market overview chapter in this report on the photodiode sensors market explains market trends and dynamics including restraining factors, drivers, and opportunities for the current and future market for photodiode sensors. The market outlook analysis has also been provided in the report. Additionally, the report provides analysis of different business strategies adopted by leading players in the photodiode sensors market. The market introduction chapter assists in gaining idea of different trends in the photodiode sensors market in terms of photodiode type, wavelength, material, and end-use industry.
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The study provides a decisive view of the global photodiode sensors market, by segmenting the market in terms of photodiode type into PN photodiode, PIN photodiode, avalanche photodiode, and Schottky photodiode. Based on wavelength the market has been divided into ultra violet (UV) spectrum, visible spectrum, near infrared (NIR) spectrum, and infrared (IR) spectrum. Based on material, the market has been segregated into silicon (Si), germanium (Ge), gallium phosphide (GaP), indium gallium arsenide (InGaAs), and others. In terms of end-use industry, the market has been classified into telecommunication, health care, consumer electronics, aerospace & defense, and others (research, automotive, etc.). The report provides detailed breakdown of the global photodiode sensors market region-wise and categorizes it at various levels, thereby providing valuable insights at micro- and macro-levels.

Visual Computing Market – Competitive Analysis, Industry Dynamics & Estimation by 2024

With the significantly increasing graphics hardware and software capabilities of operators, the global market for visual computing is witnessing a substantially high-paced growth. The growth potential of this market is remarkably high, as visual computing is making its way smoothly in a number of industries, such as the gaming, healthcare, media and entertainment, defense and intelligence, automotive, and the manufacturing sectors.
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The E-learning and various scientific research applications have also surfaced as the key application areas of visual computing and are providing noticeable opportunities for future growth. The efficiency of these applications is improved to a great extent with the integration of this technology. The real-world experience and life-like appearance create a better visualization, which, in turn, is expected to reflect positively on the demand for visual computing.
The global market for visual computing has a broad and complex network of value chain, as the entire chain is inter-connected with a number of players related to the global complete industry, and the flow of the technology and services. The component manufacturers, technology integrators, software solution providers, and the end users are the prime building blocks of the value chain present in this market.
Computers are being increasingly used to process digital images, video and visual reproduction. Visual computing means the ability to transform information into images and to gain information from images. The visual data can be block diagrams, simple icons 3-D scenes, photo, and video. These are used to describe either computer environment or application with huge or numerical data files like video sequences, 3-D scenes and images. Visual computing finds application in graphics, visualization, animation technology, video processing and image, multimedia communication and interaction among others.
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Cyber world, visual computing is helping to transform the data to visual to facilitate better and effective more easy processes to gain from the data it contains .increasing demand for simulation products and virtual reality is expected to create a large market potential for visual computing market. Moreover, increasing focus on gaming graphics card to increase the accuracy level of games is also predicted to accelerate the demand of gaming industries. This in turn is acting as a driving factor in the growth of visual computing market in the coming years. The visual computing market is expected to grow at a steady rate during the forecast period from 2016 to 2024.

Actuator Sensor Interface Market – New Innovations, Application, Recent Technology Updates & Forecast

An industrial networking solution (protocol, data access method and physical layer) that is used in a distributed control system (DCS), programmable logic controller (PLC), and PC-based automation system is called an actuator sensor interface or AS-i. An AS-i is designed to connect field input/output (I/O) devices (for instance ON/OFF devices such as rotary encoders, sensors, push buttons, valve position sensors, and analog inputs and outputs) in process applications and discrete manufacturing using a single 2-conductor cable.
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Electrical cables are rapidly getting replaced by actuator sensor interface cables in the automation industry and the same is used to connect various I/O field devices, for example sensors, proximity switches, actuators, and process valves. Fieldbus, an industrial computer network protocol, is designed for ideal communication between sensors and actuators, and is greatly preferred by vendors of automation equipment.
The design of a fieldbus ensures smooth communication between actuators and sensors, and thus is highly preferred by automation equipment vendors. Low-cost remote I/O solutions for higher level Fieldbus networks are offered by AS-i. High level fieldbus networks such as Interbus, industrial Ethernet, Profibus, and DeviceNet use these I/O solutions and the communication is speeded up between sensors, controllers, and actuators.
Low cost features, simplicity, interoperability, and flexibility of the AS-i network makes it a preferred option amongst manufacturers in the automation industry across different countries and thus this factor is expected to drive the growing demand for actuator sensor interface or AS-i in the years to come. Impact of these factors is expected to remain consistent during the forecast period.
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The market of actuator sensor interface is segmented on the basis of end user. The segment is thus divided into process automation industry and discrete automation industry. The latest trend that the AS-i market is experiencing is increasing inclination toward process automation. Many industries are taking up Internet of Things (IoT) and industry 4.0 to maximize material flow and identify errors at the very initial stages of a product’s life cycle. Greater efficiency, enhanced safety, high profitability, and predictive maintenance of machines are derived from the integration of cyber systems and physical systems in industrial manufacturing.

Vision Guided Robots Market | Industry KnowHow By 2024

Robots fitted with cameras for inspecting and analyzing images and providing more accurate secondary data signals to the controller as compared to robots fitted with other sensory equipment for fulfilling similar requirements are referred to as vision guided robots. The vast benefits of vision guided robots over conventional robots in terms of a relatively higher level of accuracy and precision in operations are leading to the former’s increased adoption across a number of application areas. Technological advances are also leading to reduction in costs and the increased applicability across small- and mid-sized industries. The adoption of vision guided robots is expected to increase at a remarkable pace in the near future.
This report presents a meticulous study of the global market for vision guided robots and its affiliated industries. It provides a thorough analytical overview of the present growth dynamics of the market and impact of a number of factors influencing the overall development of the market in the near future. The report also sheds light on the key trends observed in the market in the recent past and present years. With the help of tools such as Porter’s Fiver Forces analysis, a comprehensive overview of the competitive landscape of the market in included.
For providing the reader a better understanding of the market, the report offers quantitative and qualitative insights into the present and future growth prospects of the market and its segments across key regional markets. The statistics is supported with the help of a number of graphical representations. The report also profiles some of the leading companies operating in the market along with details regarding their business strategies, latest developments, and revenue generation.
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The vast benefits of vision guided robots over conventional robots in terms of more applicability and flexibility of getting adapted across a wide number of application areas are key to the high demand for vision guided robots across the globe. Technological advancements leading to the development of high definition cameras, accurate sensors, and the increasing level of automation across a number of industries are also some factors helping the global vision guided robots market tread along a healthy growth path.

Smart Antenna Market – Cellular System Segment to Remain Most Lucrative

The Smart Antenna – Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2018 – 2026 report provides analysis of the smart antenna market for the period 2016–2026, wherein 2018 to 2026 is the forecast period and 2017 is considered as the base year. Data for 2016 has been included as historical information. The report covers all the trends and technologies expected to play a major role in the growth of the smart antenna marketover the forecast period. It highlights the drivers, restraints, and opportunities expected to influence the market growth during this period.
The study provides a holistic perspective on the market’s growth in terms of revenue (in US$ Mn) across different geographical regions, namely North America, Europe, Asia Pacific, Middle East & Africa, and South America. The report highlights the key trends affecting the market on a global scale. Furthermore, region wise prominent countries/regions covered in the report includethe U.S, Canada, Germany, France, U.K., India, China, Japan, GCC, South Africa, and Brazil.
The report analyzes and forecasts the market for smart antennas at the global and regional level. The report comprises a detailed value chain analysis which provides a comprehensive view of the global smart antenna market. Porter’s Five Forces model has also been included to help understand the competitive landscape in the market. The study encompasses market attractiveness analysis, wherein end-users are benchmarked based on their market size, growth rate, and general attractiveness.
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The report segments the market on the basis ofproduct type,technology, application,and region. The product type segment includes switched multibeam antenna and adaptive array antenna. In terms of technology, the market has been segmented into MIMO (Multiple Input Multiple Output), MISO (Multiple Input Single Output), and SIMO (Single Input Multiple Output). Based on application, the market has been segmented intoWi-FI systems, cellular system, WiMax system, RADAR, and others.
Global Smart Antenna Market: Research Methodology
Secondary research sources that are typically referred to include, but are not limited to company websites, annual reports, financial reports, broker reports, investor presentations, and SEC filings, internal and external proprietary databases, and relevant patent and regulatory databases, national government documents, statistical databases, and market reports, news articles, press releases, and webcasts specific to companies operating in the market.

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SDKI Inc. published a new report on the collagen market on January 25, 2022.  This study includes the statistical and analytical approaches ...