Sirens Market Research by Key players, Type and Application, Future Growth Forecast 2022 to 2032

In 2022, the global sirens market is expected to be worth US$ 170.1 million. The siren market is expected to reach US$ 244.0 million by 2032, growing at a 3.7% CAGR.

The use of sirens is expected to increase, whether for announcements or on emergency vehicles such as ambulances, police cars, and fire trucks. A siren is a loud warning system that alerts people to potentially dangerous situations as they happen.

Rapidly increasing threats and accidents have resulted in more casualties and missed business opportunities in developing economies. Demand for sirens is expected to rise during the forecast period as more people use security solutions.

As a result of rising threats and accidents in developing economies, the number of victims and lost business opportunities has rapidly increased. Adopting security solutions, such as sirens, is an effective way to deal with these challenges. Long-range sirens are used in mining and industrial applications, whereas motorised sirens are used in home security. Hand-operated sirens are used when there is no power or when a backup is required.

Some additional features of sirens include a solar panel upgrade system to keep the batteries charged and a number of digital communication methods, including Ethernet, satellite, IP, fiber optic and others. Sirens have conformal coatings on their electronics, which help protect them against harsh environments. Some of the systems are made in such a way that they can be expanded or scaled depending on future capabilities.

Omni-directional sirens can be used in areas of high noise levels and those with large population densities as they provide a greater area of coverage. Sirens have external controls with triggers, which can be customized according to needs. The lightening types of sirens include bulb revolving, LED flashing and xenon lamp strobe. The loud speakers in sirens are adopted from latest piezoelectric ceramic technology.

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Other sirens are hydraulic or air driven and mostly find applications in plants and factories. Lithium batteries have replaced alkaline batteries in sirens now, since lithium batteries need not be replaced for several years. Modern sirens use latest technologies and find applications in civil defense, emergency vehicles, security systems and others. Typically, sirens are made of stainless steel, aluminum or UV stabilized polycarbonate to avoid corrosion and are equipped with protection cages. An LED flashing siren has a light source with a semi-permanent lifespan and it is used in places where bulb replacement is a problem.

Region-wise Outlook

In the global sirens market, the dominant share is held by the U.S., India, China, Japan, Australia, Germany, Singapore and the UAE. This can be attributed to the demand for security solutions in developed as well as developing economies.

The regional analysis includes:

North America (U.S., Canada)

Latin America (Mexico. Brazil)

Western Europe (Germany, Italy, France, U.K, Spain)

Eastern Europe (Poland, Russia)

Asia-Pacific (China, India, ASEAN, Australia & New Zealand)

Japan

The Middle East and Africa (GCC Countries, S. Africa, Northern Africa)

The report is a compilation of first-hand information, qualitative and quantitative assessment by industry analysts, inputs from industry experts and industry participants across the value chain. The report provides in-depth analysis of parent market trends, macro-economic indicators and governing factors along with market attractiveness as per segments. The report also maps the qualitative impact of various market factors on market segments and geographies.

Market Participants

Some of the key market participants identified in the global siren market are Acoustic Technology Inc., Sentry Siren Inc., MA Safety Signal Co. Ltd, Whelen Engineering Co. Inc., Federal Signal Corporation, B & M Siren Manufacturing Co., Projects Unlimited Inc., Phoenix Contact, Mallory Sonalert Products and Qlight USA Inc.

Rising population and rapid urbanization have led to an increase in demand for security solutions. The need for implementation of security has paved way for the use of electronic equipment on a large scale globally, which in turn has created opportunities for the global sirens market. As these products are durable with a high voltage capacity and easy to install, they find high selling propositions. Characteristics and properties of electronic and pneumatic equipment play a vital role in security solutions, thereby driving the global sirens market with a rise in diverse end-user applications, such as industrial warning systems, community warning systems, campus alert systems and military mass warning systems.

Report Highlights:

Detailed overview of parent market

Changing market dynamics in the industry

In-depth Polishing / Lapping Film market segmentation

Historical, current and projected market size in terms of volume and value

Recent industry trends and developments

Competitive landscape

Strategies of key players and products offered

Potential and niche segments, geographical regions exhibiting promising growth

A neutral perspective on market performance

Must-have information for market players to sustain and enhance their market footprint.

Browse Detailed Summary of Research Report with TOC @ https://www.futuremarketinsights.com/reports/sirens-market

Key Segments

Product Type:

Electronic

Electro-mechanical

Rotating

Single/dual toned

Omnidirectional

By Application:

Civil defense

Industrial signaling

Emergency vehicles

Home/vehicle safety

Security/warning systems

Military use

Others

By Installation Type:

Wall mounting

Self-standing

Water proof connector

By Regions:

North America

Europe

Asia Pacific

Latin America

MEA

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Why the Range Rover Engine 2.0 is the Best Choice for Your Vehicle

If you are looking for a powerful, reliable and efficient engine for your Range Rover, you might want to consider the 2.0-litre four-cylinder Ingenium petrol engine. This engine is one of the most advanced and innovative engines in the market, offering a range of benefits that make it stand out from the competition. In this blog post, we will explore 10 reasons why the Range Rover Engine 2.0 is the best choice for your vehicle.

1. Performance

The Range Rover Engine 2.0 delivers a remarkable performance, with a maximum power output of 221 kW (300 PS) and a maximum torque of 400 Nm. This means that the engine can accelerate from 0 to 100 km/h in just 7.3 seconds, and reach a top speed of 225 km/h. The engine also features a twin-scroll turbocharger, which enhances the responsiveness and efficiency of the engine.

2. Fuel Economy

The Range Rover Engine 2.0 is not only powerful, but also fuel-efficient. The engine has a combined fuel consumption of 8.7 L/100 km, and a combined CO2 emission of 199 g/km. The engine also has a stop-start system, which automatically shuts off the engine when the vehicle is stationary, and restarts it when the driver presses the accelerator pedal. This reduces the fuel consumption and emissions in urban traffic.

3. Emissions

The Range Rover Engine 2.0 is designed to meet the stringent Euro 6d emission standards, which are aimed at reducing the harmful pollutants emitted by vehicles. The engine has a gasoline particulate filter (GPF), which captures and oxidizes the fine particles in the exhaust gas. The engine also has a selective catalytic reduction (SCR) system, which injects a urea-based solution into the exhaust stream, and converts the nitrogen oxides into harmless nitrogen and water.

4. Technology

The Range Rover Engine 2.0 is equipped with a range of advanced technologies that enhance its performance, efficiency and durability. The engine has a variable valve lift (VVL) system, which adjusts the intake valve lift according to the engine load and speed, optimizing the airflow and combustion. The engine also has a variable camshaft timing (VCT) system, which adjusts the timing of the intake and exhaust valves, improving the power delivery and fuel economy.

5. Smoothness

The Range Rover Engine 2.0 is engineered to provide a smooth and refined driving experience, with minimal noise and vibration. The engine has a balancer shaft, which counteracts the inherent vibrations of a four-cylinder engine, ensuring a smooth operation. The engine also has an acoustic cover, which reduces the noise level of the engine compartment.

6. Versatility

The Range Rover Engine 2.0 is compatible with various models of Range Rover, such as the Range Rover Evoque, Range Rover Velar and Range Rover Sport. The engine can also be paired with different transmissions, such as an eight-speed automatic transmission or a nine-speed automatic transmission, depending on the model and preference of the driver.

7. Reliability

The Range Rover Engine 2.0 is built to last, with high-quality materials and components that ensure its reliability and durability. The engine has a forged steel crankshaft, which can withstand high loads and stresses. The engine also has an aluminium cylinder block and head, which are lightweight and resistant to corrosion.

8. Maintenance

The Range Rover Engine 2.0 is easy to maintain, with a simple and accessible design that facilitates servicing and repairs. The engine has a service interval of 26,000 km or one year, whichever comes first. The engine also has a self-diagnostic system, which monitors the performance and condition of the engine, and alerts the driver if any issues are detected.

9. Warranty

The Range Rover Engine 2.0 comes with a comprehensive warranty that covers any defects or malfunctions that may occur during normal use of the vehicle. The warranty lasts for three years or 100,000 km, whichever comes first. The warranty also includes roadside assistance, which provides emergency support in case of breakdowns or accidents.

10. Satisfaction

The Range Rover Engine 2.0 is designed to deliver satisfaction to its owners, with its outstanding performance, efficiency and quality. The engine is also backed by Land Rover's reputation for excellence and innovation in engineering and design.

FAQs

Q: What is the difference between the Range Rover Engine 2.0 and other engines in the market? A: The RangeRover Engine 2.0 is one of the most advanced and innovative engines in the market, offering a range of benefits that make it stand out from the competition. The engine delivers a remarkable performance, fuel economy, emissions, technology, smoothness, versatility, reliability, maintenance, warranty and satisfaction. Q: How much does the Range Rover Engine 2.0 cost? A: The cost of the RangeRover Engine 2.0 depends on the model and configuration of the vehicle. The engine is available as an option or a standard feature on various models of Range Rover, such as the Range Rover Evoque, Range Rover Velar and Range Rover Sport. The price of the engine may vary depending on the market and dealer. Q: How can I get the RangeRover Engine 2.0 for my vehicle? A: You can get the RangeRover Engine 2.0 for your vehicle by visiting your nearest Land Rover dealer or contacting them online. You can also browse the Land Rover website and explore the different models and options available with the engine. You can also book a test drive and experience the engine for yourself. Read the full article

Harman touts new in-vehicle cabin technologies

LAS VEGAS — Automotive technology company Harman sees new cabin features such as monitoring a driver's vital signs or upgrading audio experiences as an essential marketing strategy automakers can use to attract buyers. The tech, part of Harman's growing automotive product portfolio, aims to enable car brands to create in-vehicle experiences that meet the unique demands of their specific customers. "The in-cabin experience becomes the differentiator," Armin Prommersberger, senior vice president of product management at Harman Automotive, told Automotive News. That entails every digital facet of a vehicle, including the displays, user interfaces, features such as cabin climate controls and the overall connectivity of the vehicle, Prommersberger said. One Harman innovation unveiled at the CES technology show last week uses neuroscience, artificial intelligence and machine learning to expand the capabilities of the company's Ready Care solution, which is centered on the well-being of the driver and passengers. The latest addition to Ready Care, launched last year, enables the vehicle to reduce distracted driving and initiate a personalized in-cabin response to help mitigate dangerous driving situations caused by physical dynamics such as stress, anxiety and drowsiness. The Harman radar-based technology, which uses customizable interventions such as audio settings to alert the driver, can also detect when a child or pet has been left in the vehicle. Another suite of innovations Harman debuted at CES includes sound and vibration sensor and external microphone products that enhance audio inside and outside the vehicle to keep the driver abreast of potentially dangerous situations. The audio technology enables the driver to hear sounds such as emergency vehicle sirens, exterior speech commands from drivers or traffic controllers, and glass breakage or vehicle impact. Harman Ready Vision, another feature showcased at CES, provides drivers with intuitive turn-by-turn directions directly on the windshield and helps to enhance driver cognition. Ready Vision also uses computer vision and machine learning for 3D object detection to deliver collision warnings, blind spot warnings, lane departure, lane-change assist and low-speed zone notifications to the driver, with a focus on being far less intrusive than other vehicle warning systems. Harman also debuted a new scalable platform, Ready on Demand, that delivers upgrades for Harman-branded audio experiences such as Virtual Venues, replicating the acoustics of live stadium environments. The platform is the foundation for expanding in-vehicle experiences and future upgrades that consumers can unlock via in-app purchases throughout the vehicle's life. Harman also showcased a set of fully upgradeable hardware and software components that enable automakers to perform upgrades throughout the vehicle's life and accelerate time to market, much like a mobile device. The new hardware and software components, called Ready Upgrade, feature three families of production-grade cockpit domain controllers, an entire instrument cluster and an in-vehicle infotainment software stack. Harman has not yet disclosed which automakers are in line to adopt its new products. Prommersberger said all of these features are ready for production vehicles now. As a subsidiary of Samsung Electronics — which accounts for about 21.2 percent of the smartphone market, according to Statista — Harman can develop in-vehicle applications at a speed that meets the demands of tech-savvy consumers, he said. "OEMs spend so much time and effort, over and over again, writing specifications and requirements," Prommersberger said. "We are going to the designer and not to someone who writes a specification sheet … so you can spend more time on improving the quality of the experience instead of just getting the basics right."

Why Are Automakers Using Acoustic Vehicle Alerting Systems in Electric Vehicles?

Why Are Automakers Using Acoustic Vehicle Alerting Systems in Electric Vehicles?

The International Energy Agency (IEA) forecasts that the global stock of plug-in hybrid electric vehicles (PHEV) (trucks) and battery electric vehicles (BEV) (trucks) will rise from 228 units in 2020 to 900,264 units by 2030 and 30,872 units in 2020 to 860,942 units by 2030, respectively. The IEA also predicts that the global PHEV (cars) and BEV (cars) stock would surge from 3,346,713 units in…

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Acoustic Vehicle Alerting System Market Projected to reach $5,619 million by 2027

Acoustic Vehicle Alerting System Market Projected to reach $5,619 million by 2027

The report “Acoustic Vehicle Alerting System Market by Propulsion Type, Vehicle Type, Electric Two-Wheeler (E-Scooter/Moped, E-Motorcycle), Sales Channel (OEM, Aftermarket), Mounting Position (Integrated, Separated), and Region – Global Forecast to 2027″, The acoustic vehicle alerting system market is projected to reach USD 5,619 million by 2027 from an estimated USD 425 million in 2019…

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The global Acoustic Vehicle Alerting System market size is projected to reach US$ 1174.2 million by 2028, from US$ 305.3 million in 2021, at a CAGR of 20.7% during 2021-2028.

Sirens Market: Global Industry Analysis, Size, Share, Growth, Trends And Forecast 2022 - 2032

In 2022, the sirens market is expected to be worth US$ 170.1 million. The sirens market is expected to be worth US$ 244.0 million by 2032, with a CAGR of 3.7%.

The use of sirens, whether for announcements or on emergency vehicles such as ambulances, police cars, and fire trucks, is expected to increase. A siren is an audible alarm that alerts people to potentially hazardous situations as they develop.

Rapidly rising threats and accidents have resulted in an increase in casualties as well as lost business opportunities in developing economies. Demand for sirens is expected to rise during the forecast period as more people use security solutions.

As a result of rising threats and accidents in developing economies, the number of victims and lost business opportunities has rapidly increased. Adopting security solutions, such as sirens, is an effective way to deal with these challenges. Long-range sirens are used in mining and industrial applications, whereas motorised sirens are used in home security. Hand-operated sirens are used when there is no power or when a backup is required.

Request a Sample Copy of this Report @ https://www.futuremarketinsights.com/reports/sample/rep-gb-4274

A solar panel upgrade system to keep the batteries charged is one of the additional features of sirens, as are a variety of digital communication methods such as Ethernet, satellite, IP, fibre optic, and others. Sirens' electronics have conformal coatings that protect them from harsh environments. Some of the systems are designed to be expanded or scaled in response to future capabilities.

Omni-directional sirens can be used in areas with high noise levels and high population densities because they cover a larger area. Sirens have external controls with triggers that can be customised to meet specific needs. Bulb revolving, LED flashing, and xenon lamp strobe are examples of lighting types of sirens. The sirens' loud speakers use the most recent piezoelectric ceramic technology.

Other types of sirens are hydraulic or air-driven, and they are typically found in plants and factories. Because lithium batteries do not need to be replaced for several years, they have replaced alkaline batteries in sirens. Modern sirens employ cutting-edge technology and have applications in civil defence, emergency vehicles, security systems, and other areas. To avoid corrosion, sirens are typically made of stainless steel, aluminium, or UV stabilised polycarbonate and are outfitted with protection cages. An LED flashing siren has a semi-permanent light source and is used in locations where bulb replacement is difficult.

Outlook by Region

The United States, India, China, Japan, Australia, Germany, Singapore, and the United Arab Emirates dominate the global sirens market. This can be attributed to the increased demand for security solutions in both developed and developing economies.

Participants in the Market

Acoustic Technology Inc., Sentry Siren Inc., MA Safety Signal Co. Ltd, Whelen Engineering Co. Inc., Federal Signal Corporation, B & M Siren Manufacturing Co., Projects Unlimited Inc., Phoenix Contact, Mallory Sonalert Products, and Qlight USA Inc. are some of the key market participants identified in the global siren market.

Population growth and rapid urbanisation have increased demand for security solutions. The need for security implementation has paved the way for the widespread use of electronic equipment, creating opportunities for the global sirens market. These products are popular because they are long-lasting, have a high voltage capacity, and are simple to instal. Electronic and pneumatic equipment characteristics and properties play an important role in security solutions, driving the global sirens market with an increase in diverse end-user applications such as industrial warning systems, community warning systems, campus alert systems, and military mass warning systems.

For More Information on this Report @ https://www.futuremarketinsights.com/reports/sirens-market

Report Highlights:

A thorough examination of the parent market

Market dynamics in the industry are changing.

Market segmentation of Polishing / Lapping Film in depth

Historical, current, and projected market volumes and values

Trends and developments in the industry recently

Strategies of key players and products offered in the competitive landscape

Potential and niche segments, as well as geographical regions with promising growth prospects

A balanced assessment of market performance

Information that market participants must have in order to maintain and expand their market footprint.

Detailed overview of parent market

Acoustic Vehicle Alerting Systems Market 2020- Upcoming Trends, Growth Drivers, Regional Outlook

According to Market Research Future (MRFR), The global acoustic vehicle alerting systems market is estimated to witness a CAGR of 12% from 2019 to 2025 (forecast period). The report discusses the strengths, opportunities, threats, and potential business risks and offers a detailed analysis of the global market situation with the effect of COVID-19.

Key Players        

Delphi Technologies (UK), Denso Corporation (Japan), HARMAN International (US), Daimler AG (Germany), Volkswagen AG (Germany), BMW AG (Germany), Nissan Motor Corporation (Japan), MANDO-HELLA Electronics Corp. (South Korea), Honda Motor Co., Ltd (Japan), and KUFATEC GmbH & Co. KG (Germany).

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https://www.marketresearchfuture.com/sample_request/8161

Major Highlights of TOC Covers:

Executive Summary

Key Business Trends

Regional Trends and Growth

Product Trends

End-use Trends

Definition and Forecast Parameters

Acoustic vehicle alerting systems Market Segmentation

More…

About Us:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

Contact Us

Market Research Future

+1 646 845 9312

Email: [email protected]

The next great leap forward? Combining robots with the Internet of Things

by Mauro Dragone

‘At your service’. Zapp2Photo

The Internet of Things is a popular vision of objects with internet connections sending information back and forth to make our lives easier and more comfortable. It’s emerging in our homes, through everything from voice-controlled speakers to smart temperature sensors. To improve our fitness, smart watches and Fitbits are telling online apps how much we’re moving around. And across entire cities, interconnected devices are doing everything from increasing the efficiency of transport to flood detection.

In parallel, robots are steadily moving outside the confines of factory lines. They’re starting to appear as guides in shopping malls and cruise ships, for instance. As prices fall and the Artificial Intelligence (AI) and mechanical technology continues to improve, we will get more and more used to them making independent decisions in our homes, streets and workplaces.

Here lies a major opportunity. Robots become considerably more capable with internet connections. There is a growing view that the next evolution of the Internet of Things will be to incorporate them into the network – opening up thrilling possibilities along the way.

Home improvements

Even simple robots become useful when connected to the internet – getting updates about their environment from sensors, say, or learning about their users’ whereabouts and the status of appliances in the vicinity. This lets them lend their bodies, eyes and ears to give an otherwise impersonal smart environment a user-friendly persona. This can be particularly helpful for people at home who are older or have disabilities.

We recently unveiled a futuristic apartment at Heriot-Watt University to work on such possibilities. One of a few such test sites around the EU, our whole focus is around people with special needs – and how robots can help them by interacting with connected devices in a smart home.

Suppose a doorbell rings that has smart video features. A robot could find the person in the home by accessing their location via sensors, then tell them who is at the door and why. Or it could help make video calls to family members or a professional carer – including allowing them to make virtual visits by acting as a telepresence platform.

Equally, it could offer protection. It could inform them the oven has been left on, for example – phones or tablets are less reliable for such tasks because they can be misplaced or not heard. Similarly, the robot could raise the alarm if its user appears to be in difficulty.

Of course, voice-assistant devices like Alexa or Google Home can offer some of the same services. But robots are far better at moving, sensing and interacting with their environment. They can also engage their users by pointing at objects or acting more naturally, using gestures or facial expressions. These “social abilities” create bonds which are crucially important for making users more accepting of the support and making it more effective.

Read more: Robot carers could help lonely seniors — they're cheering humans up already

To help incentivise the various EU test sites, our apartment also hosts the likes of the European Robotic League Service Robot Competition – a sort of Champions League for robots geared to special needs in the home. This brought academics from around Europe to our laboratory for the first time in January this year. Their robots were tested in tasks like welcoming visitors to the home, turning the oven off and fetching objects for their users; and a German team from Koblenz University won with a robot called Lisa.

Robots offshore

There are comparable opportunities in the business world. Oil and gas companies are looking at the Internet of Things, for example; experimenting with wireless sensors to collect information such as temperature, pressure and corrosion levels to detect and possibly predict faults in their offshore equipment.

In future, robots could be alerted to problem areas by sensors to go and check the integrity of pipes and wells, and to make sure they are operating as efficiently and safely as possible. Or they could place sensors in parts of offshore equipment which are hard to reach, or help to calibrate them or replace their batteries. The likes of the ORCA Hub, a £36m project led by the Edinburgh Centre for Robotics, bringing together leading experts and over 30 industry partners, is developing such systems. The aim is to reduce the costs and the risks of humans working in remote hazardous locations.

ORCA tests a drone robot. ORCA

Working underwater is particularly challenging, since radio waves don’t move well under the sea. Underwater autonomous vehicles and sensors usually communicate using acoustic waves, which are many times slower (1,500 metres a second vs 300m metres a second for radio waves). Acoustic communication devices are also much more expensive than those used above the water.

This academic project is developing a new generation of low-cost acoustic communication devices, and trying to make underwater sensor networks more efficient. It should help sensors and underwater autonomous vehicles to do more together in future – repair and maintenance work similar to what is already possible above the water, plus other benefits such as helping vehicles to communicate with one another over longer distances and tracking their location.

Beyond oil and gas, there is similar potential in sector after sector. There are equivalents in nuclear power, for instance, and in cleaning and maintaining the likes of bridges and buildings. My colleagues and I are also looking at possibilities in areas such as farming, manufacturing, logistics and waste.

First, however, the research sectors around the Internet of Things and robotics need to properly share their knowledge and expertise. They are often isolated from one another in different academic fields. There needs to be more effort to create a joint community, such as the dedicated workshops for such collaboration that we organised at the European Robotics Forum and the IoT Week in 2017.

To the same end, industry and universities need to look at setting up joint research projects. It is particularly important to address safety and security issues – hackers taking control of a robot and using it to spy or cause damage, for example. Such issues could make customers wary and ruin a market opportunity.

We also need systems that can work together, rather than in isolated applications. That way, new and more useful services can be quickly and effectively introduced with no disruption to existing ones. If we can solve such problems and unite robotics and the Internet of Things, it genuinely has the potential to change the world.

About The Author:

Mauro Dragone is Assistant Professor, Cognitive Robotics, Multiagent systems, Internet of Things at Heriot-Watt University.

This article is republished from The Conversation under a Creative Commons license.