Trends and Technology

BIS Research undertakes detailed study report on Global Maritime Security Market. The report analyzes key market study, size, growth, trends & opportunities.

Digital ATC towers are equipped similar to a conventional air traffic control tower. The systems and equipment at the airport are connected to the remote digital tower module, where airport air traffic services (ATS) are provided based on digital information. Panoramic cameras positioned at the airport provide a visual presentation of the airport and its vicinity that is displayed on screens located in the digital tower module, hence providing air traffic control officers (ATCOs) and aerodrome flight information service officers (AFISOs) with a lookout over their area of responsibility, either fully or partially.

The digital ATC towers market, on the basis of operation type, has been segmented into single remote control tower, multiple remote control tower, and contingency remote control tower. These different types of operations showcase that a remote control tower can provide air traffic services to one airport or more than one airport as well as act as a second control tower to handle large air traffic.

A digital ATC tower comprises various hardware and software solutions to perform and handle air traffic services. Hardware components such as radars, remote tower modules, display systems, and high-fidelity cameras help in gathering information and track aircraft movements from landing to take- off. These data are being transmitted through network solutions, which are critical for connectivity as well as enable effective functioning of digital ATC towers.

The increasing air traffic volumes, rapid technological advancements, and continual digitalization of the aviation sector compel the aviation authorities to invest heavily in the remote and digital towers. Numerous countries are upgrading their ATC towers, and this is expected to propel the market for digital towers in small and regional airports. In May 2017, London City Airport and NATS Limited introduced the U.K.’s first-ever digital air traffic control tower. The digital solution was a heavy investment utilizing state-of-the-art sensors and 360o HD cameras mounted on a newly constructed tower that helps in improving air traffic management. In March 2020, Saab AB demonstrated its digital tower system to the U.K.’s Royal Air Force. This demonstration was to assess the latest technology and evaluate future requirements for air traffic control.

The recent COVID-19 pandemic has had a significant impact on businesses across the globe. Due to strict regulations and measures taken by the governments of major countries, it has become difficult to carry out air traffic operations. Travel bans on domestic and international flights have affected the market as the number of flights that require an ATC tower has reduced drastically. This effect helps in increasing the need for a single digital tower in a remote location that can provide air traffic services to multiple small and medium airports, and also help in reducing the operating costs.

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The prominent players in the digital ATC towers market adopted strategies of product launches, contracts, acquisitions, and collaborations to enhance their digital ATC tower solutions. Companies such as Saab AB, Frequentis Group, Thales Group, Indra Sistemas, S.A., Raytheon Technologies, L3Harris Technologies Corporation, Northrop Grumman Corporation, Lockheed Martin Corporation, Searidge Technologies, Leonardo S.P.A, Kongsberg Gruppen, Rohde & Schwarz Emirates L.L.C., NATS Limited, and Avinor AS have entered into partnerships and collaborations to provide and upgrade the digital ATC tower solution.

Technologies Corporation, Northrop Grumman Corporation, Lockheed Martin Corporation, Searidge Technologies, Leonardo S.P.A, Kongsberg Gruppen, Rohde & Schwarz Emirates L.L.C., NATS Limited, Avinor AS, and Skysoft-ATM SA, among others.

The 5G satellite communication networks represent the global telecommunication infrastructure of the digital economy, which will cover the whole world, including inaccessible areas not covered by 5G terrestrial networks. Given this, the satellite segment of 5G networks becomes one of the pressing issues of development and standardization of 5G networks development in the period 2020–2025. Satellite systems are fundamental components to deliver reliable and efficient 5G services in all regions of the world, all the time and at an affordable cost.

There have been numerous use cases depicting the 5G communication satellite services based on low earth orbit. One of the applications of the 5G satellite network is the usage of low earth orbit satellite to enable radio connectivity for various devices such as AR, VR, and IoT devices with less power consumption. In addition, 5G satellite network based on low earth orbit are used for satellite connectivity of remote service center to offshore wind farms. It is also used for for setting up satellite link connectivity with local control center in wind power plant communication network.

However, 5G networks are, simultaneously being focused upon for their usage in industrial communications, thereby aiding in global digital transformation. Since industries such as aviation, energy, and heavy industries have been rapidly evolving, the current communication network technologies and bandwidths also need enhancements to deliver optimum performance. The parameters for high-performing networks are low latency, high bandwidth, high system spectral efficiency, and peak throughput, along with less energy loss. This segment provides a detailed analysis on different types of orbits for 5G satellite communication market. The three orbits included in the scope of the report are low earth orbit (LEO), medium earth orbit (MEO), geosynchronous earth orbit (GEO).

The evolution of science and technology in the telecommunication sector is expected to adopt and deploy 5G satellite communication solution in the market. Considered an update to its preceding 4G satellite solution, 5G is bound to reach new heights with its increased network capacity, higher bandwidth, and high speed, among others. This section provides different solutions for communicating between devices and components. It also provides a detailed analysis on different types of satellite solutions for the 5G satellite communication market. The four-satellite solution included in the scope of the report are backhaul and tower feed, trunking and head-end feed, communication-on-the-move, and hybrid multiplay.

Due to the rapid advancement of 5G network systems, the development trends can be attributed to the competition between countries for high speed and large network coverage. Factors such as the Increasing in the number of communication satellite constellation for the support of system of 5G across the globe are showcasing a great impact on the growth of the 5G satellite communication market. This is expected to bring developments in business verticals across various regions, as they are increasingly using 5G satellite communication services to accomplish various tasks such as fleet management, storage management, personnel tracking, and monitoring borders.

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The emergence of 5G satellite communication services for Internet of Things (IoT) is among the major factors due to which various end users are expected to invest for high-speed connectivity and low latency. The 5G satellite communications market is segmented based on regions into North America, Europe, Asia-Pacific, and Rest-of-the-World. The geographical segmentation is further classified based on countries across several regions to understand the potential of the 5G satellite communication market.

The demand for next-generation anode materials varies according to various geographical regions. The next-generation anode materials market hold a prominent share in various countries of North America, Asia-Pacific (APAC), and Europe. Asia-Pacific is currently the largest revenue generating region in the next-generation anode materials market. The next-generation anode materials market in Asia-Pacific is expected to grow at the fastest CAGR of 17.60% in terms of value during the forecast period (2019-2029) among all the regions. China is the highest revenue generating country in Asia-Pacific, followed by South Korea and Japan. Technological advancements, extensive investments for dedicated R&D facilities, and development of gigafactories of lithium-ion batteries are some of the major drivers that are propelling the growth of the market in the region. In 2018, China generated revenue of $327.1 million which is expected to reach $2.28 billion by 2029 growing at a CAGR of 19.43% from 2019 to 2029. Rising CO2 emissions in China and Japan have led to concerns from the countries’ governments across the globe. Various government initiatives have been undertaken to promote the adoption and manufacturing of electric vehicles, as they may help in the reduction of vehicular emissions and act as a potential substitute for the petrol and diesel engine-based cars. Additionally, concerted efforts by both the governments and manufacturing sector in promoting the usage of lithium-ion batteries have played a pivotal role in making this region the frontrunner in the field of next-generation anode materials market.

North America and Europe also hold a significant share in the global next-generation anode materials market. The U.S. generated revenue of $368.3 million in 2018, and the revenue generation is expected to reach $1.97 billion by 2029 at a CAGR of 16.55% from 2019 to 2029. The U.S. is the leading country in the electric vehicles battery market in the North American region. Factors such as rise in GDP of the economy, stringent fuel economy standards, and high growth in electric vehicle sales are expected to drive the market growth of next-generation anode materials in the country.

The competitive landscape of the next-generation anode materials market consists of different strategies undertaken by major players across the entire value chain to gain market presence. Some of the strategies adopted by next-generation anode material manufacturers are product launches, mergers and acquisitions, partnerships, and collaborations. Among all the strategies adopted, partnerships, collaborations, and contracts have dominated the competitive landscape. BTR New Energy Material Ltd., Enevate Corporation, NEXEON LTD., Sila Nanotechnologies Inc., and Talga Resources Ltd are some of the leading players in the global next-generation anode materials market.

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The research study focuses on unleashing the innovations in anode electrode of lithium-ion battery and aims to put forward a clear picture of the current consumption and future growth potential of different next-generation anode materials. The current technology revolves around the usage of graphite as an anode material. However, this chemistry, though found in abundance, is not sufficient to cater to the rising demand for high energy storage by end-user applications in the industry. A battery must be able to sustain high power and resistance, have long shelf life and durability, and other such benefits. Some of the next-generation anode materials that can offer the aforementioned advantages to certain extent are silicon/silicon oxide blend, silicon-graphene, silicon-carbon composite, and Lithium titanium oxide (LTO). Currently, these materials are not produced at a scale similar to the traditional graphite-based anode materials as they are still in the development stage. More than 500 patents have been filed/granted between 2014 and 2018 and validate the extensive research and development activity for these materials. Besides, partnerships and collaborations on an industry level are highly witnessed between the key players to bring improvements in their next-generation anode material products.

However, currently, no single technology of these anode chemistries wins along the dimensions of being energy efficient, risk free, and cost effective, all at the same time. Choosing a technology that optimizes performance along all dimensions mainly depends on their individual application areas. For instance, LTO technology is a high-performance option with a good life span and can be used for high application areas such as electric buses, construction vehicles, and power tools, whereas silicon/silicon oxide blend technology possesses high energy density but faces issues with its volume expansion, which thereby limits its commercialization on a large scale.

The space industry has seen a lot of technological advancements since the first artificial satellite, Sputnik, was launched by the Russians. The space industry has seen significant growth in the past few decades owing to the sophisticated and robust systems that have undergone continuous enhancements over the years. The satellites launched for various services such as navigation, telecommunication, climate, and environmental monitoring have become so advanced that it has become very difficult to imagine our day-to-day lives without information and data from the satellites. So, the need to protect these space assets has become very important for the countries that not only depend on the satellites for commercial and domestic services but for defense and safety operations as well.

With increased capabilities and growing dependence on the satellites for civil and military uses, their vulnerability to natural and human-made threats have become apparent. The natural threats include meteoroids and other harmful radiations, and the human-made threats include anti-satellite missiles, orbital debris, and others. Since we cannot control the natural threats with the level of technology that is available, the companies are focusing on developing active space debris removal systems.

The outer space has nearly 7,600 tons of man-made human junk orbiting the Earth and poses a great threat to the active satellites revolving around the planet at present, and this threat is going to increase exponentially in the future. Hence the need for developing such technologies has become an important goal for the key players. The key players in the active space debris removal market include Astroscale, Tethers Unlimited Inc., Altius Space, D-Orbit, ClearSpace, and Surrey Satellite Technologies Limited, among others. These companies are designing and developing the technologies that will help mitigate the amount of debris in space. Most of the key players are start-ups that are backed by international space agencies when it comes to funding and contracts. For instance, Astroscale was selected by the Japanese space agency for demonstrating an active debris removal solution. The satellite servicing missions are often confused as a solution to deal with the debris but, increasing the life of the satellite or spacecraft is just a temporary solution.

The focus of active space debris removal manufacturers in the ecosystem is toward developing advanced technologies to capture the debris particle safely and deorbit the satellite. The rise of safety concerns for satellites is driving the key players in the space debris removal industry to design and develop innovative solutions. This chapter of the report deals with the market size of the active space debris removal industry in different classifications such as removal techniques, mode of operation, and level of autonomy.

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North America region comprises the regional markets of the U.S. and Canada. The global market for active space debris removal market is dominated by the North America region with huge investments and revenue expected to be generated from the U.S. market. The demand for debris removal technology is expected to rise in the coming years, and the companies are already developing the products and solutions to reach the market needs. Furthermore, the growth of the technology is anticipated to create new markets to expand its operations and develop innovative, cost-effective solutions.

BIS Research undertakes detailed study report on APAC HVAC Market. The report analyzes key market trends, size, share, report, growth, players & opportunities.

BIS Research provides emerging technology Market Research Reports and Industry Analysis for Surveillance & Cybersecurity including Industry Forecast, Market Segmentation Data, Market Share, Analysis and Growth

Setting up new benchmarks in the digital media domain, online gaming has walloped the console based or video game industry in the past decade. While the increasing smartphone usage is propelling the demand of interactive gaming globally, the wide spread use of internet is adding on to the exponential growth of digital gaming. The digital gaming industry is currently standing at a point of influx with numerous established and early stage companies paving their way into geographies with untapped market potential, India being one of them. The vast expanse of digital gaming has broad categories of mobile gaming, social media based gaming, Personal Computer (PC) based gaming, Console based gaming, and Massive Multiplayer Online based (MMO).

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High throughput Satellite Market (HTS) Report- Global market research report, industry analysis and forecast. In 2017 Global High throughput Satellite Market generated a revenue of $3,466 million. HTS market is segmented into six types: broadband, mobility, enterprise, government, cellular backhaul, and broadcast.

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The global satellite M2M and IoT network market is driven by several factors. The leading ones in the same are the expansion in the global IoT network, launch of new satellite constellations enabling IoT and M2M connectivity, and technological expansion in associated components in the IoT and M2M network. Rapid expansion in the IoT network to connect the globally scattered resources at a central location and to disseminate the insights across the internal network are the predominant factors which will drive the growth in the satellite M2M and IoT network market. To cater the market with more value propositions and to reduce the investment costs of the end-user, satellite operators and device manufacturers are together developing robust solutions that can potentially switch between terrestrial and satellite network as required. Moreover, it has been witnessed that satellite operators are also collaborating with IoT and connectivity application developers to advance the end to end solutions capability.

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Unmanned ground vehicles are an integral part of automation that includes industrial automation as well automation in defense and security applications. They come in different in shape, and varying payload capacity, providing logistics supports, negotiating tough terrain for surveillance mission in military operations to ferrying materials, and lifting goods and sorting within factory workplace. In commercial markets, both emerging and established businesses are getting heavily dependent on automation to maintain quality and quantity of their products and retain their share in the global market.

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Spherical graphite is a niche technology contributing to the ongoing energy storage revolution by accelerating the performance of lithium-ion batteries. It is majorly used as a battery anode material in the lithium-ion batteries. The demand for battery anode material is rising, owing to the upsurge in the demand for lithium-ion batteries.

The spherical graphite used in the batteries is of two types namely- synthetic graphite and natural spherical graphite. Traditionally synthetic spherical graphite was used as battery anode material, but now its demand is outpaced by the natural spherical graphite, a new alternative which is cheaper and has minimal carbon footprint. This alternative is being preferred by the consumers, owing to its environment friendly formation process. The technology is at a nascent stage and the producers are yet to master the usage of natural spherical graphite efficiently. Moreover, it is a cost effective and an environment friendly option.

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Protein malnutrition is a global issue at present, hence, there is an urgent need to explore a solution to the same. Consequently, several new products have emerged in the market, which act as potential alternatives to the conventionally consumed protein source, such as meat. Soyabean is one such alternative that is rich in isoflavones and provides numerous health benefits. As a result, the popularity and consumption of soyabean is growing at a rapid pace across the globe. At present, the U.S., Brazil and China are leading in the production of soybean, with the U.S. being the largest producer. The country produces over 50% of the world’s soybean and holds over 50% of the total soybean area globally.

Soyabean is capable of supplying most of the nutrients and can clearly substitute meat, and to some extent, milk as well. For the past 20 years, a considerable amount of research has been done to know the health effects of soy consumption on an individual’s health. Initially, isoflavones were used in the animal feed industry but later due to their various health benefits it was realized that these products can also be used in the food industry. Isoflavones belong to the class of phytoestrogen. Phytoestrogen, as defined by the British Working Group on Phytoestrogens of the Committee of Toxicity of Chemicals in Food, Consumer Products and the Environment of the Food Standards Agency (FSA, 2003), is a plant substance or metabolite which includes biological responses in vertebrates and can moderate the actions of estrogens usually binding to estrogen receptors.

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Satellites play a crucial role in enabling services such as communication, navigation, and environmental monitoring for the commercial, military, and government end users. There is an extensive demand for satellites today as there’s an increasing need for faster, reliable, and efficient real-time tracking and monitoring system. Consequently, launch vehicles for satellites are an essential aspect of the global space industry, as they carry and place satellites into their assigned positions on the Earth’s orbit.

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The satellite launch industry is witnessing tremendous growth with many new players entering the market. According to the Federal Aviation Administration (FAA), a US-based regulatory authority for civil aviation, the global launch services were estimated to be around $5.5 billion in 2016 and is expected to grow with the booming space economy.

Global launch system payload market has witnessed a high growth rate owing to the growing demand for satellite launches, specifically satellite constellations (that comprise several small satellites). The global launch system payload market recorded 390 satellite launches in 2017, with more number of small satellite launches in the forecast period.

The drone camera market has exhibited a robust growth rate in the recent past. Cameras used in drones have experienced continuous technological advancement since their inception. Their increased adoption across commercial, military and homeland security end-users is attributed to their declining prices, compact size and ease of operability. Furthermore, increase in demand of drones for imaging applications, rise in usage of low cost Do-It-Yourself (DIY) drones, and high demand of drones for surveillance applications are driving the growth in the drone camera market. The demand of drone cameras has experienced a significant rise in the recent years and the trend is anticipated to continue in the next few years, owing to their cost saving advantage across commercial and non-commercial end-users. The rise in demand of drones across emerging nations and miniaturization of cameras are expected to open several new opportunities for the drone camera market in the years to come.

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The global glass industry is progressing incessantly by the gradual shift towards smart and energy efficient glass technologies by the various end-user industries such as building & construction and transportation, among others. The demand for active glass technologies in the energy efficient glass market is surging rapidly and the trend is likely to continue over the upcoming years. The demand for the energy efficient glass products in the developed countries such as European countries such as Germany, France, and the U.K. is also witnessing high growth rates. In the emerging nations, especially the countries such as China, India, Brazil, Australia, and Singapore, a massive growth in the construction and transportation industry due to high population growth, urbanization, and rising per capita income of the individuals is driving the energy efficient glass market. Also, factors such as increasing urban population and growing disposable incomes are stimulating the growth in the consumption of the glass products.

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The more electric aircraft (MEA) initiative highlights the deployment of electrical power in place of hydraulic, pneumatic, and mechanical power to optimize the performance and life cycle cost of the aircraft. The MEA requires high reliability, fault-tolerant, autonomously controlled electrical power system to provide higher quality power and electrical levels to the aircraft's loads.

The aviation industry is focusing on hybrid-electric propulsion as well as all-electric propulsion. Hybrid architecture is one of the solutions for the industry to reduce weight, fuel burn, and environmental impact, particularly by avoiding the requirements to design the main combustion engine to meet maximum power requirements, for example, at take-off.

The non-propulsive aircraft systems such as actuation, de-icing, and air-conditioning have been relying on mechanical, hydraulic, and pneumatic sources of power. These systems have conventionally been powered by the aircraft engines, with power generated through various mechanisms such as hydraulic and electric systems, which gain power from mechanical conversion through the engine gearbox, whereas pneumatic power is generated by engine compressor air bleed systems.

In a more electric aircraft (MEA), the aircraft employs more electrical equipment in place of systems that would earlier have been mechanical, hydraulic, or pneumatic. The B737 became the first aircraft which introduced electrical cabin equipment and avionics. After this, MEA trend followed the introduction of the fly by wire (FBW) system in the Airbus A320 in the late 1980s. This MEA concept then led to the introduction of the A380 and the employment of an electrically actuated thrust reverser, along with hybrid electro-hydraulic actuation systems for wing and tail flight control surfaces. After this, the 787 became the first large commercial aircraft to have an electrically powered environmental control system (ECS) and to implement electrically actuated brakes, as well as electrical de-icing.

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The key drivers in the move toward more electric aircraft are reduced system weight, ease of maintenance, increased engine efficiency, reduction of engine use on ground, controllability, automatic reconfiguration, and advanced diagnostics and prognostics.

The more electric aircraft market is expected to have significant growth during the forecast period 2020-2025. The factors attributing to the growth of the market include the need for light, efficient, high power density generators and motors, focus on optimization of aerodynamic structure and engine, decrease in operational and maintenance cost in more electric aircraft, development of high-density battery for capacity and performance, and shift toward electric propulsion. However, the market is also facing technological challenges such as overall system power demands and battery performance in the electrification of aircraft.

Mobile gaming industry has undergone a transformation in the past 5 years. In the past 5 years the gaming industry has evolved and new business models have emerged. The diverse consumer base has paved way for an array of new revenue streams and integrated payment solutions ranging from subscriptions fees, pay-per-play, in-app purchases, royalties to premium account and upgrade remunerations.

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Despite the rapid evolution in consumer electronics and transportation industries over the last decade, these industries are still being limited by low efficiency of the power sources used for manufacturing the products. Batteries take up nearly half the space of most laptops and phones. Therefore, a 50% increase in the battery energy density can make the product more efficient while creating space of better features such as improved cameras, better sound, and communication. However, the battery technology has not witnessed much advancement, with energy storage strategies still being shaped by lithium-ion batteries, presently. In addition, with the current materials and cell designs, the lithium-ion battery technology is expected to reach an energy limit within the next few years, thereby generating demand for next-generation of anode materials, which have higher energy density.

However, with the discoveries of new families of disruptive anode materials, the industry is expected to unlock new opportunities. Graphite has been by far the dominant anode material, as it is cheap, reliable, and energy-dense. However, the material performance is fairly weak as compared with potential anode materials, such as silicon and lithium. Therefore, huge investments, along with intensive R&D, are currently being made by various key companies to enhance the energy storage capacity of the lithium-ion battery. Moreover, the current demand for efficient lithium-ion batteries in electric vehicles (EVs) and consumer electronic devices, such as mobile phones, laptops, and notebooks, is further escalating the requirement of innovative changes in batteries. Lithium-ion batteries are essential to bring new growth opportunities in EVs and energy storage devices. The battery industry is evolving at an enormous rate with the entrance of new players and new technologies. This is expected to act as a catalyst to enable batteries to meet the unmet demands in terms of their performance.

The research study focuses on unleashing the innovations in anode electrode of lithium-ion battery and aims to put forward a clear picture of the current consumption and future growth potential of different next-generation anode materials. The current technology revolves around the usage of graphite as an anode material. However, this chemistry, though found in abundance, is not sufficient to cater to the rising demand for high energy storage by end-user applications in the industry. A battery must be able to sustain high power and resistance, have long shelf life and durability, and other such benefits. Some of the next-generation anode materials that can offer the aforementioned advantages to certain extent are silicon/silicon oxide blend, silicon-graphene, silicon-carbon composite, and Lithium titanium oxide (LTO). Currently, these materials are not produced at a scale similar to the traditional graphite-based anode materials, as they are still in the development stage. Regarding the same, more than 500 patents have been filed/granted between 2014 and 2020 and validate the extensive research and development (R&D) activity for these materials. Besides, partnerships and collaborations at an industry level are highly witnessed among the key players to bring improvements in their next-generation anode material products.

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For instance, in 2019, Daimler AG provided $170 million funding to Sila Nanotechnologies Inc., for the development of efficient battery materials with an improved energy capacity of 20%. With this investment, Daimler AG intends to improve its electric vehicle offerings while fulfilling its commitment of totally electrifying the Mercedes-Benz car range by 2022. Samsung Ventures has been investing in XG Sciences by funding its R&D to facilitate improvements in the materials produced by the company. XG Sciences further aims to introduce a joint development program with Samsung SDI for the application of next-generation batteries in consumer electronics. Similarly, in 2020, Volkswagen increased its stake in QuantumScape, a solid-state battery manufacturer, by making an additional investment of up to $200 million. Both the companies have been collaborating since 2018 for the mass commercialization of solid-state batteries.

The global sustainable masterbatch market is mainly attributed due to the increased demand for bioplastics, biodegradable plastics, and more sustainable solutions in multiple application areas such as medical, packaging, agriculture, and automotive. Additionally, the implementation of government laws and regulations across the globe that limits the production of conventional masterbatches by encouraging the production of bioplastics has also been a major factor in driving the demand for sustainable masterbatches. Moreover, increasing consumer awareness has resulted in increased demand for sustainable solutions in different domains, thereby increasing the applications of bio-based plastics and other sustainable solutions in the masterbatch industry. The increasing emphasis on advanced and innovative technologies and products in the sustainable masterbatch industry creates several opportunities for the manufacturers to expand their revenue stream and product portfolios.

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The farm management software and analytics has garnered the attention of various stakeholders amongst different farming types such as precision crop farming, livestock farming, indoor farming, and aquaculture. Catering to precision crop farming, the wide range of use cases found under this farming type for agricultural software solutions is driving the growth. Major use cases for precision crop farming under the application segment include yield monitoring and farm mapping, crop scouting, weather tracking, and forecasting, irrigation management, and farm economics.

The introduction of smart lights integrated with software is expected to augment the growth of farm management software and data analytics in the indoor farming sector. Moreover, depleting agricultural land and increasing demand for fresh agricultural produce all around the year are expected to propagate the growth of indoor farming

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The military ammunition market has witnessed the development of different product types for military applications. The outbreak of COVID-19 mildly affected the global military ammunition market in 2020 and 2021. The global military ammunition market is expected to witness a substantial growth over the forecast period 2020-2025. The market is expected to see the growth of the missiles mainly due to the increasing procurement for enhancing the offensive and defensive strength of the armed forces. A high demand for military ammunition in emerging countries (such as Asia-Pacific, Middle East, and Africa) is expected to create opportunities for military ammunition players across different platforms, such as navy, land forcers and air force.

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The counterspace security market is further segmented on the basis of product type, deployment mode, application, and region. While highlighting the key driving and challenging forces for this market, the report also provides a detailed study of the industry. The report also analyzes different applications that include military and commercial. By product type segment, the market is segmented into co-orbital systems, non-kinetic physical systems, space-based electronic warfare systems, space situational awareness, and cybersecurity.

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The global military robotic and autonomous systems market report provides detailed market information for segmentation such as platform type, mode of operation, application, and region. The purpose of this market analysis is to examine the military robotic and autonomous systems in terms of factors driving the market, trends, technological developments, and competitive benchmarking, among others.

The report further takes into consideration the market dynamics and the competitive landscape, along with the detailed financial and product contribution of the key players operating in the market. While highlighting the key driving and restraining forces for this market, the report also provides a detailed study of the industry that is analyzed.

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Collaborative robots, also referred to as cobots, are used in numerous industries for a varied range of applications, due to their additional benefits over conventional industrial robots. Some of the features of collaborative robots that make them stand out include their collaborative usage capabilities to be used alongside humans, easy installation and operation, and much lower cost than that of conventional industrial robots. With all these additional benefits, collaborative robots also provide enhanced process efficiency as well as a reduction in production cost. Moreover, the increase in the demand for automation in small and medium enterprises (SMEs) and quick return on investments are expected to further push the demand for collaborative robots over the coming years.

The collaborative market research study offers a wide perspective on where the cobot market is heading. The research is based on extensive primary interviews (in-house experts, industry leaders, and market players) and secondary research (a host of paid and unpaid databases), along with the analytical tools that have been used to build the forecast and the predictive models.

The report is a compilation of various segmentations, including market breakdown by industry, payload, and application. While highlighting the key driving and restraining forces for this market, the report also provides a detailed study of the different industries that are analyzed, which includes automotive, electrical, electronics and semiconductor, plastics and polymers, pharma and chemistry, food and beverage, aerospace and defense, metal and machining, and others. The report also analyzes different applications that include material handling, small parts assembly, CNC machine tending, molding operations, test and inspection, packaging and palletizing, polishing, screw driving, gluing, dispensing, welding, and others. In the payload segment, the market is segmented into different payload types, such as less than 5kg, between 5-9Kg, and more than 9Kg. It is based on discussions and interviews with the top management of several leading original robot manufacturers (ORMs), tier-1 suppliers, and solution providers.

During the industrial revolution, which began to gain shape during the 18th and 19th centuries, the demand for autonomous machines proliferated to increase the production as well as improve the quality of products. Prior to the industrial revolution, the manufacturing of products was carried out manually using ordinary tools and machinery. With the onset of industrialization, the demand for mass production and specialized machinery increased and brought out a shift from conventional methods to the deployment of automated machines to perform tedious and repetitive jobs. During that period, workers in an industry used to operate the machines for production. Due to rapid technological advancement in industrial automation, the requirement for automated machines, which could perform the task with preset instructions and negligible human interactions, increased. The requirement of such machines led to the invention and popularization of controlled devices.

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Further technological advancements, such as the introduction of integrated circuits, laid the foundation of industrial robots. In 1959, George Devol and Joseph Engelberger developed the first industrial robot. Later on, the researchers and programmers successfully executed complex programming, and robots with advanced capabilities for other applications were created. The introduction of robots in the manufacturing industry rapidly transformed the process of production, which led to generating the demand for more automated solutions (both hardware and software) to increase process optimization in the manufacturing units.