UPCOMING INDUSTRY TRENDS

Counter-UAS Market Scope Assessment 2021-2031

The unmanned industry has been rapidly growing owing to significant developments such as considerable reduction in size, weight, and cost, enhanced battery life, and increased degree of autonomy in its operation. Additionally, drones have been adopted across the globe for various applications such as infrastructure, logistics and transport, insurance, media and entertainment, telecommunication, agriculture, mining, oil & gas, and defense. Currently, there are about one million drones registered with Federal Aviation Administration (FAA), and the number is increasing day by day. With a huge number of drones in the air, efficient detection systems can play a great role in alleviating potential risks associated with drone usage.

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However, the ease in availability of drones or unmanned aircraft systems (UASs) has also given rise to their malicious usage. There have been several incidences of drone detection and close encounters with commercial aircraft in various regions, which have posed a threat to lives as well as commercial aircraft operations. Additionally, there is a rising number of illegal and terrorist activities and increasing incidence of security contravention by unsanctioned UAVs, which have posed a threat to the national security of the various countries. Hence, this creates a need for counter-UAS (anti-drone) technologies to tackle the growing threats from drones.

Counter-drone technology, also known as C-UAS, counter-UAS, or C-UAS technology, refers to a type of device used to locate, fix, track, identify, and neutralize unidentified unmanned aerial vehicles (UAVs). The increase in the use of commercial drones and incidents has resulted in the necessity for counter UAV technology or anti-drone systems which neutralize rogue drones. Some of the anti-drone systems use sensors to detect UAVs, identify threats using electro-optical/infrared imagery and RF emissions, and neutralize the threat posed by unidentified UAVs.

A counter-UAS is capable of detecting, tracking as well as seizing the UAVs. Some of the techniques that are used to detect and trail UAS are radar, electro-optical/infrared, radiofrequency, and acoustic systems. Interdiction helps in neutralizing UAVs which reduces the threats posed by drones. Further neutralizing of drones can be done based on protocol-based interdiction, sensor-based interdiction, jamming, or physical interdiction. The challenges that are faced while adopting these technologies include economic feasibility, effective contingency plans, and regulations, among others.

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The initial adopters of counter-UAS technologies have been defense organizations; the C-UAV systems are now being installed at the critical infrastructure around the world. The tools and techniques used by militaries, defense organizations, and police include GPS spoofing, drone nets, RF jammer guns, among others, in the anti-drone system.

Digital Agriculture Marketplace Market Size, Future Demand 2020-2026

With the exponential growth of the global population, the subsequent increase in global food demand, the decrease in agricultural land, and the depletion of limited natural resources, the need to improve agriculture yield has become critical. The upsurge in the urban population in developing countries, with improved quality of living due to high-income levels and the demand for fresh farm produce and animal protein, bolsters the need for crop production.

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Additionally, as the food demand increases, innovation in the agriculture sector through technology and digitalization have been noticed as practical solutions to address some of the challenges coping with the global food system. Various agriculture sector suppliers are pursuing more excellent distribution and access to the regional or global supply chain. Also, the customers demand food traceability, better price transparency, and faster access to information. Digital platforms in the agriculture sector have emerged to address all the market needs.

Agriculture and the food industry are rapidly penetrating the era of platform economics. Digital technology allows such platforms to target the global market even as being rooted in the national economy. The rapid development of digital interfaces is not solely a matter of matching supply and demand. Collaborative platforms have emerged alongside marketplaces. Some of the platforms are dedicated to financing, while others are dedicated to exchanging services.

The digital agriculture marketplace offers various opportunities, such as harnessing technology to enhance usability and the Asia-Pacific region’s scope of growth. This is owing to the benefits provided by the digital agriculture marketplace, such as elimination of intermediates, platforms for multiple start-ups, delay in +supply and production, and reliable year-round crop production. Such a shift in the agriculture sector is likely to offer precision in the agriculture sector.

Due to COVID-19, the growth in the global digital agriculture marketplace market increased exponentially in 2020 and 2021; owing to the increase in the demand for agriculture products, the market is likely to witness a sharp growth over the forecast period.

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Furthermore, the global digital agriculture marketplace market is witnessing challenges in the agriculture sector, such as digital agricultural knowledge and poor access to networks and internet connectivity. Such challenges occur mainly in developing countries, where digital knowledge is often low, and farmers lack experience with e-commerce services. Also, in rural areas, small-scale farmers are still struggling with internet connectivity and difficulty in buying smartphones.

Precision Agriculture Market Key Futuristic Trends and Competitive Landscape 2020-2026

With the exponential growth of the world population, the subsequent rise in the global demand for food, shrinking agricultural lands, and the depletion of finite natural resources, the need to enhance farm yield has become critical. Limited availability of natural resources, such as fresh water and arable land, along with slowing yield trends in several staple crops, have further aggravated the problem. Another looming concern over the farming industry is the shifting structure of the agricultural workforce. Moreover, the agricultural labor in most of the countries has declined. As a result of the declining agricultural workforce, the adoption of automated solutions in farming practices has been triggered to reduce the need for manual labor.

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To address the escalating demand for food from the limited farmlands and labor, established agriculture machinery developers and technology vendors are introducing innovative solutions in the farming arena. These solutions are focused on helping farmers to fill the supply-demand gap by ensuring high yield, increased profit, and protection of the environment. The approach of using information technology (IT) to ensure optimum utilization of resources to achieve high crop yields and reduced operational costs is called precision agriculture. Precision agriculture technologies comprise specialized equipment, software, and IT services.

New technologies trigger higher yields and reductions in costs. Climate change is one of the most severe environmental threats to the productivity of agriculture processes. Crop yields are affected due to natural calamities such as droughts and floods. Varying weather circumstances influence soil quality and crop yields. Therefore, it is essential to adopt precision farming technologies and practices which will lead to a potential crop yield.

One major limitation is the poor coverage of networks in rural areas. Farmers have a constant fear that their farms’ data will be handed over to the public or the competitors. Due to this reason, the farmers find it skeptical for use. Lack of clear laws and regulations to avoid misuse by third parties also restraints the further growth of precision agriculture market. Precision agriculture generates a huge amount of data, and there are chances of security issues. There are concerns over the ownership, use of the data, and how the companies will store it. While many farmers are using the digital mode to process the information, there is a considerable number of farmers who are reluctant to share their information with the companies that provide precision agriculture solutions.

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Supported by governmental policies and low-cost technological developments, farmers across the globe are expected to increase the implementation of sustainable farming technologies. The application of precision agriculture technologies in farming operations is likely to be facilitated by a broader participatory approach involving a variety of stakeholders, including farmers, agri-food giants, agricultural original equipment manufacturers (OEMs), consumer groups, investors, as well as government and non-government organizations. Moreover, the precision agriculture market is witnessing several trends and opportunities, which are propelling growth in the industry. The advent of agricultural drones and big data analytics in the farming sector is expected to drive the market during the forecast period between 2021 to 2026.

Aquaponic and Hydroponic Systems and Equipment Market Current Trends, Forecast by 2026

Aquaponic and hydroponic farming techniques are widely accepted throughout the world because of the various benefits these techniques offer over conventional farming. With these techniques, the worldwide issue of food safety and security is being addressed. The fruits and vegetables produced through these techniques are monitored and developed in a controlled manner for the crop to achieve an optimal growing environment. With aquaponic and hydroponic production, global food production is increasing, which is important to feed the growing population as it is expected to reach 9.73 billion by 2050.

The global aquaponic and hydroponic systems and equipment market research study offers a broad perspective on the analysis of the industry. 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 application, product, and region. The report highlights the key driving and restraining forces for the market as well as the opportunities in different applications across the leading countries. In the extensive primary research process undertaken for this study, the sources include industry experts and key executives from prominent companies and organizations across the value chain.

The report also provides a country-based analysis for all the leading countries in every region, including the U.S., the U.K., China, Japan, Mexico, Canada, South Korea, Brazil, Thailand, Indonesia, Spain, and Germany. Each regional analysis details an individual push-and-pull force, in addition to the key players and applications in that region.

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In recent times, high emphasis has been laid on the adverse effects of conventional agriculture on the environment. Some of these concerns include depletion of natural resources, misuse of synthetic chemical inputs into the soil, and contamination of water resources. With the excessive agricultural activities over the land, land fertility globally has declined. To meet the growing global food demand with the increasing population, which is expected to reach XX billion by 2050, alternative and safer ways of growing crops has been worked upon that utilize less space and are more reliable and environment friendly. This has led to a great rise in alternative production systems within both small growers and large-scale commercial productions.

Some of the leading alternative farming systems are aeroponics, monoculture, tissue culture, aquaponic, hydroponic, bio-dynamic farming, permaculture, and polyculture. Aquaponic and hydroponic systems are leading the wave for alternative farming globally, providing growers with many significant benefits to growing plants while minimizing potentially dangerous environmental effects.

Hydroponic and aquaponic farms are land-based systems that use recirculated, nutrient-rich water instead of soil to grow food, flowers, and sometimes fish. Hydroponic is the system of growing plants without the use of soil. Hydroponic systems, when done correctly, work better than the conventional method of growing plants in soil. In a hydroponic growing system, a nutrient-charged, aquatic solution is flushed through the plant root to provide the plants with the resources needed for ideal growth. There are many benefits to using a hydroponic grow system, such as fewer resources are consumed, arable land is not needed, and the harvestable plants are of higher quality than when grown using conventional methods.

High-End Synthetic Suede Market Global Opportunity Analysis and Industry Forecast 2021-2031

The textile and fabrics industry is undergoing a significant transformation, wherein the demand for natural leather and suede material is experiencing a gradual decline. Consumer awareness about the potential hazards of the leather production process has, in turn, stimulated the demand for synthetic materials in the market.

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One such vital innovation impacting the industry is high-end synthetic suede, which is free from any form of toxic production and does not involve unethical practices. This has further enabled the end-user industries to incorporate the material in their production process and revolutionize the material industry.

Trends of the high-end synthetic suede market vary with different geographical regions. However, the high-end synthetic suede market currently holds a prominent share in various countries of North America, Europe, Asia-Pacific (APAC), and RoW. For a comprehensive study of the same, the report provides a country-based analysis of all the leading countries of different regions, including the U.S., the U.K., China, Japan, Italy, South America, MEA, and South Korea. Each geographical region analysis details the individual push-and-pull forces, in addition to the key players and applications in that particular region.

The leather industry has occupied a prominent place in the industrial global map encompassing a variety of countries. However, recently, the production process of leather invited a lot of flak from animal protection agencies and associations. The possession of leather was once considered as a sign of luxury. However, it has been gradually witnessing a slowdown in its global demand. The material which is produced using cattle hides and skins is gradually being replaced by its environment friendly counterparts. Large-scale production of leather in the global leather industry has been a major cause of slaughtering of a number of animals such as cattle and calves, horses, and lamb, among others, for utilizing their skin to generate leather. Not only this, leather is largely toxic to the environment as well. The leather tanneries which involve the use of chromium for the tanning process release poisonous metals as a waste. The groundwater found near tanneries has also been found to have high levels of toxic chemicals such as cyanide, lead, and formaldehyde, among others.

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The continuous efforts of the non-governmental organizations and environmental activists to extend knowledge about the potential hazards of leather has essentially led to the incorporation of innovative materials by the end users in their production process.

Synthetic suede is one such vital material which is made from the blends of polyester and the generation of which does not involve any form of unethical practices and toxins that might hamper the environment as well as hurt the sentiments of animal welfare associations.

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Aquaponic and Hydroponic Systems and Equipment Market Growth Rate Foreseen 2020-2026

The primary source of livelihood for a majority of the global population is agriculture. Agriculture is also the main source of national income for most developing countries. However, for developed countries, agriculture contributes a smaller percentage to their national income. In recent times, agriculture has come under scrutiny due to its adverse effects on the environment, which include depletion of natural resources, contamination of water sources, and misuse of synthetic chemical inputs. There is less land available for crops, and growers are constantly looking for alternative and safer ways to grow plants using less space. This has led to an increased emphasis on soilless production systems for small and large-scale commercial production of crops. At the forefront of the soilless system are hydroponics and aquaponics, which provide growers with many important benefits for plant growth and minimize potentially dangerous environmental impacts.

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Hydroponics is a method of growing plants without soil. At first, it seems counterintuitive to grow plants without soil, but hydroponics is a diverse system that works better than conventional methods of growing plants in soil. In the hydroponic growing system, the nutrient-rich aquatic solution is flushed through the plant root to provide the plant with the necessary resources for optimal growth. Using a hydroponic planting system has many advantages: it consumes fewer resources, does not require arable land, and the quality of harvestable plants is higher than that of conventional planting methods.

Aquaponics is another innovative system to grow plants without soil. However, it is slightly different from hydroponics. Aquaponics is a combination of hydroponic and aquaculture. The aquatic solution does not obtain nutrients from the soil for plants but provides essential nutrients needed for plant growth directly to the roots, where they can effectively absorb nutrients.

Aquaponic and hydroponic growing systems provide a lot of benefits over conventional farming. Firstly, through these systems, the agricultural output can be increased drastically, which would help in solving the global food crisis. Secondly, food safety and security concerns have increased over time, especially in the Europe region. Through aquaponic techniques, food safety concerns can be met as the crop developed using these techniques are continuously monitored and are grown in a controlled manner. Since these systems provide all necessary requirements for plant growth, year-round crop production is possible through aquaponic and hydroponic techniques.

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The global aquaponic and hydroponic systems and equipment market is expected to increase global food production as there is no dependence on arable land and climatic conditions; year-round crop production can be achieved through these alternative farming techniques. With these techniques, a shift toward indoor growing and vertical farming is achievable, which is a big opportunity for the global aquaponic and hydroponic systems and equipment market.

A challenge for the growth of the aquaponic and hydroponic systems and equipment market is the high initial investment for achieving a medium and large-scale commercial setup. This is considered a major hindrance in adopting these alternative farming techniques, especially in developing countries. Along with the high initial cost, awareness about alternative farming techniques is somewhat limited in countries where agricultural production is low, such as countries in the Middle East region.

Green Hydrogen Market Growth, Demand and Business Developments by 2031

Green hydrogen is an energy carrier that can be used in many different applications, such as oil and gas, petrochemicals, electric vehicles, and power generation. Despite its potential, hydrogen production today is a fossil fuel-intensive process, and significant scaling up is needed to decarbonize existing production.

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While the global market for green hydrogen remains nascent, it could play a more prominent role in the energy transition. The modular nature of electrolysis and fuel cells combined with the widespread availability of zero carbon renewable energy resources makes green hydrogen a particularly interesting option for bringing sustainable hydrogen solutions to developing countries. Green hydrogen is the only known clean energy molecule that can be produced at any scale and in almost any location on earth, a characteristic that is not comparable to other synthetic green fuels. Accordingly, green hydrogen could offer almost any community, company, or country the potential to generate their own fuels, with the flexibility for multiple end-uses, including applications oil and gas, petrochemical, electric vehicles, and power generation.

The major end users of green hydrogen in the oil and gas industry include different refining processes such as hydrocracking, hydroisomerization, hydrodealkylation, and hydrodesulphurization. The essential driver behind the adoption of green hydrogen in the oil and gas industry is reducing sulfur dioxide emissions and removal of sulfur to prevent catalyst poisoning.

The demand for green hydrogen varies according to various geographical regions. The green hydrogen market holds a prominent share in various countries of North America, Asia-Pacific and Japan, Europe, U.K., China, and Rest-of-the-World. Industrial advancements, extensive investments for dedicated R&D facilities, and development of different application products that require green hydrogen are some of the major drivers that are currently propelling the growth of the market in the region. Additionally, due to the wide-scale production of green hydrogen as well as technological advancements pertaining to the technology, the global market for green hydrogen is expected to grow at a steady rate.

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The increasing demand for green hydrogen in various end-user industries, such as oil and gas, petrochemical, electric vehicles, and power generation, has led to a wide acceptance of green hydrogen in their production over the time. This has led to a significant rise in the demand for green hydrogen in the region. Additionally, concerted efforts by both the government and the end-user have played a pivotal role in making this region the frontrunner in the field of green hydrogen.

Companies active in the green hydrogen market have adopted multiple business and corporate strategies over the past years to maintain/improve their market positioning. While the industry has witnessed a mix of several strategies adopted by companies to evolve their technologies as well as strengthen their market presence, product-centric developments through patents and product developments have been the key features in the market.

Mission Critical Interconnect Solution Market Trend, Drivers, Challenges, Key Companies by 2026

The mission-critical interconnect solution technology and products have been used widely for various applications across verticals, globally. The term mission-critical signifies that a single failure of components or sub-systems could cause the entire operation to grind to a halt. The characteristics of a mission-critical interconnect solution is that it is essential for the operation and cannot afford to experience any downtime.

The designers and manufacturers ensure that the materials and connector designs are well matched for each application. To ensure proper functioning of energy-driven electrical devices, it is essential that the designed integration of cables, wires, circuit boards, connectors, and electrical components are designed robustly as the reliability and quality of interconnection between components influence the performance of the system as a whole. Thus, selecting suitable and appropriate connectors plays an important role in the overall performance. The present-day innovative products are high-precision devices that require carefully designed and manufactured connectors that can be used in a variety of application-specific areas such as plating, high-conductivity alloys, and high-strength, high-temperature housing materials.

The competitive landscape of the global mission-critical interconnect solution market consists of several organic and inorganic strategies followed by the key players to increase the market share. The strategies include product innovations, product developments acquisitions, and business expansions, among others.

Some of the key players in the global mission-critical interconnect solution market include 3M, AirBorn, Inc., Amphenol Corporation, Bel Fuse Inc., Carlisle Interconnect Technologies, Cleeve Technology International, Glenair, Interconnect Solutions Company, JST, kSARIA Corporation, Molex, MSA Components GmbH, NAI Group LLC, Smiths Interconnect, and TE Connectivity among others. These companies are aiming for a wide range of product demonstrations and launches to expand their operations and increase their market presence globally.

The anticipated global mission-critical interconnect solution market will require better technology to cater to the growing demands of the market. With the latest developments in various applications, the need for reliable, strong, and high-quality products has increased significantly over the years. The market is expected to grow rapidly with the innovation of mission-critical applications. The new emerging players, as well as the existing companies, are developing next-generation solutions that could benefit from this huge market potential.

The connectors play an important role in electrical systems every day. However, the interconnect solutions for mission-critical applications are considered at the end of the product development phase. The importance of interconnect solutions is only recognized only when incorrectly specified connectors or poorly manufactured cable assemblies fail, or an eroding system leads to lower signal transmission. The designers and manufacturers ensure that the materials and connector designs are well matched for individual applications.

ISOBUS Component Market Challenges, Forecast and Strategies To 2026

ISOBUS or ISO11783 is the standard protocol regulated by the International Organization of Standardization (ISO) and Agricultural Industry Electronics Foundation (AEF) for inter-device communication among agricultural equipment. The global ISOBUS component market covers the entire spectrum of equipment and component based on ISOBUS standard. A piece of equipment with ISOBUS capabilities can perform a wide range of tasks in an efficient way. ISOBUS was developed in 1990 with the primary aim of improving inter-device connectivity and communication in the agricultural field. This is because multiple types of equipment are used in the farm at the same time, such as tractor, harvester, planter and seeder, and sprayer. Most of these equipment does not possess electronic control unit (ECU) and are connected to a tractor to be used in the field. The connection between the different equipment with the tractor has been the primary driving force for achieving ISOBUS.

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Prior to ISOBUS, connecting agricultural equipment with a tractor was quite difficult, and it involved a significant wiring setup along with port capability among the tractor and the equipment. With ISOBUS, if the tractor and the required equipment have ISOBUS compatibility, a seamless connection can be achieved between the two with a single cable. This cable is mostly common for other ISOBUS equipment as well. Thus, with ISOBUS, standardized communication has been achieved between different agricultural equipment.

With the increased acceptance of ISOBUS standard in the agricultural equipment industry, synergistic partnerships have increased among the leading agricultural equipment manufacturers. Since ISOBUS component offers the capability of using two agricultural equipment from two different manufacturers; the manufacturers have started developing products with common ports and compatibilities. Thus, ISOBUS agricultural equipment can be connected to equipment from other manufacturers. This saves a farmer from purchasing a completely new agricultural setup upon failure of equipment.

Another reason for the adoption of ISOBUS based equipment by the farmers is the increased productivity and efficiency in agricultural operation displayed by such equipment. To tackle the growing demand for food impacted by the growth in the global population, farmers and producers are enacting digital technologies in agriculture. ISOBUS equipment is being widely adopted as these reduce the chances of human errors and increase efficiency in farming operations. ISOBUS has also been a driver toward the adoption of smart farming practices in the agricultural industry. With the use of ISOBUS equipment, smart farming technologies such as sensors and robotic equipment can be easily deployed, further putting a positive impact on the smart farming industry.

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A key challenge for the growth of the ISOBUS component market is the high initial cost of ISOBUS-based equipment. The average cost of ISOBUS compliant agricultural equipment is much more than the average cost of equipment without ISOBUS. This is putting a negative impact on the growth of the ISOBUS component market. Due to the higher cost of ISOBUS-based equipment, small-scale and medium-scale farmers with low income would likely hesitate in investing in ISOBUS equipment.