2018 Report Food Traceability Industry

Analysts forecast the Global Food Traceability market to grow at a CAGR of 9.88 percent over the period 2014-2019.

Food traceability systems are used to keep a record of the flow of products meant for human consumption and product attributes throughout the production process or logistics network. Since food production and its distribution is a complex process, companies consider food traceability system as the best tool to solve all food-related challenges. Food traceability helps companies make fresh food products available to their consumers, thereby helping in reducing food-borne diseases. In many countries, such as the US and the UK, consumers are ready to pay more for products having a food traceability and point-of-origin certificate.

Technologies such as infrared, RFID, biometrics, and sensors have made food traceability convenient for companies in the Food industry.

This report covers the present scenario and the growth prospects of the Global Food Traceability market for the period 2015-2019. To calculate the market size, the report takes into account the total revenue generated through the technologies used in food traceability, equipment used, and various applications of food traceability.

Global Food Traceability Market 2015-2019, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the APAC region, Europe, Latin America, the MEA region, and North America; it also covers the Global Food Traceability market landscape and its growth prospects in the coming years. The report includes a discussion of the key vendors operating in this market.

Single User License of the Report is Available at USD 2500, Buy the Report @ http://www.sandlerresearch.org/purchase?rname=29361 .

Synchrophasors Market Integration of Renewable Energy Sources into Grids as a Major Market Driver

Analysts forecast the Global Synchrophasors market to grow at a CAGR of 27.4 percent over the period 2014-2019.

A synchrophasor measures the current, instantaneous voltage, and frequency at a specific location on an electric grid using PMUs. It provides real-time data of the grid system to operators, helping them make decisions to prevent any power outage. The measurements obtained from synchrophasor are used to improve grid visualization, operational monitoring, power system control, stability monitoring, state estimation, and fault analysis. Each measurement taken by a synchrophasor is time-stamped according to a common time reference. This enables synchrophasor from different utilities to be combined and synchronized, which presents a comprehensive view of a regional interconnection.

This report covers the present scenario and the growth prospects of the Global Synchrophasors market for the period 2015-2019.

Global Synchrophasors Market 2015-2019, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the Americas, and the APAC and EMEA regions; it also covers the Global Synchrophasors market landscape and its growth prospects in the coming years. The report includes a discussion of the key vendors operating in this market.

Single User License of the Report is Available at USD 2500, Buy the Report @ http://www.sandlerresearch.org/purchase?rname=29376 .

Market Driver

• Increase in Smart Grid Investments

Market Challenge

• Interoperability Issues

Market Trend

• Integration of Renewable Energy Sources into Grids

Worldwide Transfection Technologies Industry Trends Challenges and Key Vendors Analysis Report 2018

Analysts forecast the Global Transfection Technologies market to grow at a CAGR of 8.71 percent over the period 2014-2019.

Transfection technology is used for the introduction of nucleic acids into desired cells. The process enables the expression of desired proteins in efficient cells. A stable transfection enables the integration of this foreign nucleic acid into the cellular DNA resulting in the expression of the desired proteins in cell lines. The process, which can be accomplished by various physical, chemical, or viral methods, can be used for potential applications such as gene therapy, protein production, and drug discovery.

This report covers the present scenario and the growth prospects and future prospects of the Global Transfection Technologies market for the period 2015-2019. To calculate the market size, the report considers the revenue generated from the sales of different methods used in transfection inclusive of various instruments, reagents, and accessories which are used independently or as kits used for transfection.

The report also presents the vendor landscape and a corresponding detailed analysis of the top vendors in the Global Transfection Technologies market. In addition, the report discusses the major drivers that influence the growth of the market. The report outlines the geographical segmentation of this market with individual countries split under each region of the Americas, and the EMEA and APAC regions. Further, the report mention segmentation of market based on application and its forecast during 2014-2019. In addition, it discusses the major drivers that influence the growth of the market. It also outlines the challenges faced by vendors and the market at large, as well as the key trends emerging in the market.

Worldwide Teleprotection Industry Segments Growth: Teleprotection hardware and Software

Analysts forecast the Global Teleprotection market to grow at a CAGR of 21.7 percent over the period 2014-2019.

Teleprotection provides a secure and sustained supply of electricity to ensure stability and efficiency of systems. Teleprotection protects systems from failure and damage by disconnecting them from reactors, transformers, and high-voltage lines if a faulty connection is detected. The system relies on a symmetric telecom network for providing a communication channel between devices. With the help of these channels, the time delay between the units is measured, which is further required to make observations to identify faults. Teleprotection systems are adopted by some major sectors such as Power and Telecom and are gaining popularity in the Aerospace, Defense, Transportation, and IT sectors.

This report covers the present scenario and the growth prospects of the Global Teleprotection market for the period 2015-2019.

To calculate the market size, the report considers revenue generated from the sales of teleprotection systems that include the following:

• Teleprotection hardware
• Teleprotection software

The report consolidates the revenue generated from the following major sectors:

• Power
• Telecom

The market is highly fragmented with the presence of a large number of small and large vendors. Therefore, the report does not provide the market share of the vendors; it only lists the key vendors in the market. In addition, the report discusses the major drivers that influence the growth of the Global Teleprotection market. It also outlines the challenges faced by vendors and the market at large, as well as the key trends that are emerging in the market.

Key Regions

• Americas
• EMEA
• APAC

Worldwide Smart Materials Industry Segments Growth: Material, Application, End-Use and Geography

Analysts forecast the Global Smart Materials market to grow at a CAGR of 12.61 percent over the period 2013-2018.

Smart materials are specialty building materials whose properties tend to vary when subjected to external stimuli such as stress, temperature, moisture, pH, and magnetic field. These materials are called smart materials because of the change inherent in them, and not due to an external force. Smart materials have been on the market for many years and serve a large number of end-use applications including construction, transport, medical, and leisure. Smart materials could be classified into many types: piezoelectric materials, shape memory alloys, magnetostrictive materials, thermoelectric materials, rheological fluids, and others.

This report covers the present scenario and the growth prospects of the Global Smart Materials market for the period 2014-2018. To calculate the market size, the report considers the revenue generated through the sales of smart materials by these vendors. It provides data about different segments of the Global Smart Materials market 2014-2018, which are based on the following:

• Material (Piezoelectric Material, Magnetostrictive Material, Thermoelectric Material, Shape Memory Alloy, Rheological Fluids, and Others)
• Application (Motors, Sensors, Transducers, and Building Materials)
• End-Use (Transportation, Agriculture and Food, Healthcare, Construction and Infrastructure, Leisure and Sports, and Others)
• Geography (APAC, EMEA, and the Americas)

In addition, it discusses the major drivers that influence the growth of the market and also outlines the challenges faced by vendors and the market at large, as well as the key trends emerging in the market.