Smart PPE Market Size to Cross $10.62 Billion Revenue by 2030

Smart PPE Market Overview

“The Global Smart PPE Market is expected to grow rapidly at 13.8% CAGR consequently, it will grow from its existing size of from $3.52 billion in 2023 to $10.62 billion by 2030.”

Personal protective equipment (personal safety equipment) has been used for a long time as an effective tool for protecting the person and the danger. We all have high-visibility vests as well as hard hats, safety footwear that are the most commonly used items of PPE that are used in the business every day. Covid-19 also has raised our awareness of PPE as well as RPE (respiratory protective equipment) with regard to the use of facemasks as well as protective gloves in order to reduce or prevent exposure to the virus, to make us aware of how safe they are.

Smart PPE is an logical advancement for certain types of personal protective gear that incorporate technology into the PPE to collect and monitor environmental hazards or the location of the wearer, typically in high-risk workplaces. It uses sensors, or other technology to collect data about the wearer as well as the work surroundings they are working in. generally employing discreet technology such as BLE (Bluetooth low Energy) or RFID (Radio Frequency Identification) or other technologies for tracking or communications.

The use in digital technologies is often referred to in the term Industry 4.0 or the Fourth Industrial Revolution (4IR) that is the advancement of tools that are digital and technology in the workplace. Smart PPE is the natural progression of this. This Fourth Industrial Revolution is the natural heir to the previous industrial revolutions in which technological advancements were made:

• The creation and use of steam engines;
• The advancement of the assembly line for manufacturing;
• Computer technology as well as the Internet;
• Digital integration using smart technologies.

It is vital to keep in mind that PPE remains the last resort control for an individual. management of risk factors within any workplace must be evaluated in light of the risk assessment procedure as well as the order of control and the general guidelines in preventive measures.

Smart PPE is a part of the wider movement towards the connected workforce as well as an Industrial Internet of Things to increase safety in workplaces and to achieve efficiency and effectiveness.

Smart PPE refers to wearable devices that connect via the Internet or other devices, like Bluetooth to provide immediate safety information to employees in the field, as and managers from a remote location. These devices can monitor the movements of people, transmit voice messages, track the body temperature, notify employees and even record audio or video. They're typically coupled with an analytics platform built on cloud or with an app for smartphones, as well.

There are a myriad of information points that smart PPE can track and capture that can be utilized to tackle any of a myriad of safety issues, ranging from heat exhaustion to fever to fatigue, to inefficient lifting movements.

"It's an enormous space therefore being open about the problem we're trying to resolve is crucial," says Rodolphe d'Arjuzon, Ph.D., co-founder and head of research for the global region and finance director at Verdantix which is an independently owned consulting and research firm that focuses on EHS and operational excellence. sustainable buildings, and smart building technologies.

There's a plethora of fabrics, devices and platforms that are able to solve all or none of your issues at once. The reason for this is the fact that the PPE market has seen a dramatic shift over the past 10 years. Established companies, like 3M and Honeywell have launched products that are available, as have a number of startups like Guardhat, Corvex Connected Worker, Eleksen, Kenzen, MakuSafe, Bodytrak and Seebo. Sometimes, these startups get interest from investors, which occurred when the global insurance company AIG joined forces with the now-defunct company Human Condition Safety in 2016.

The momentum for smart PPE is growing slowly, thanks to technological advances and a reduction in the cost of hardware. There are still a lot of obstacles to entry, however the discussions around smart PPE have changed this time around.

"Before COVID hit, I'd think there was a rising awareness of smart PPE however the acceptance was very low," says Bill Pennington the researcher for EHS in Verdantix. "It was an excellent thing to have. Today, it's not so important a nice thing to have more of a necessity to be able to."

Pennington states that prior to COVID-19 that the smarter PPE model was likely be utilized by a particular division or situation at a large company such as Shell and Chrysler. The epidemic is proving that smart PPE companies can encourage widespread adoption by increasing their capabilities and reducing costs, so that smallmedium-sized businesses are able to see improvement.

Since the advent of smart PPE has grown in popularity and so are consumer wearables. The widespread reception of, and acceptance of smart consumer electronics like fitness trackers and smartwatches has satisfied users' desires for more information. They've also made people more comfortable in the wearable devices.

Demand Outlook

Protective equipment for personal use that incorporates the advantages of wearable and smart sensors with technology to improve the security of the user is referred to as intelligent personal protection equipment (PPE). A growing acceptance of industry 4.0 standards across different industries and the rapid growth of use of automated machines are expected to boost the market for smart PPE over the long term.

Innovations of wearable technologies, the implementation of stringent safety regulations for both employers and workers and workplace hazards that are increasing, and ongoing efforts to decrease industrial accidents are just a few of the factors that will drive market growth over the next few years. The increasing usage of smart textiles as well as continuous technological advancements in the field of smart sensors have also opened up new opportunities for established and new smart PPE companies in the coming years.

• On April 20, 2021 Iristick is a well-known maker of smart glasses located in Belgium it announced the introduction of its brand new smart glasses designed for workers in the frontline. They are the Iristick.H1 glasses can be worn on the head and have an adjustable 3-axis display that can be adjusted by the wearer.

Contrarily the cost-intensive nature associated with connected PPE and other smart safety equipment will likely to hinder the overall growth of the market until 2030. The complexity that is connected personal protection equipment as well as the ignorance about their advantages are among the other factors which are hindering the sales of items like smart helmets and smart shoes, smart vests and more.

Lack of personal protective equipment as well as an the increasing availability with counterfeit equipment are predicted to be major issues that distributors and manufacturers will have to tackle in the near future.

• In May 2021 Honeywell is a leading multinational conglomerate offering security solutions, announced launch of its latest authentication system for its PPE made within the United Arab Emirates (UAE) to tackle counterfeiting issues within areas like the MEA as well as African regions. Users can scan a digital code inside the packaging of the product to verify the authenticity of the product.

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Market Dynamics

Growth Drivers

A burgeoning demand for Personal Protective Equipment for Healthcare & Pharmaceutical Industry Likely to drive market growth

The medical industry is experiencing an increase in demand for smart PPE due to the increasing risk of infections like Ebola, SARS, swine flu, and COVID-19 among other. These circumstances have led to the need to have smart PPE because it analyzes and monitors the surroundings. Smart protective clothes or smart glove include sensors that can provide electronic health monitoring capabilities.

The data collected is analysed on a personal computer and feedback is provided directly to users. For example in India to expedite the process of screening for COVID-19, health workers utilized a smart helmet to measure temperatures in areas with high density of people. The smart helmet measures the temperature and then displays the result on its connected smartwatch.

In the same way, employees employed in the industry of pharmaceuticals are exposed to dangerous gases, particles, chemicals in addition to biological and chemical agents. The exposure to hazardous chemicals and substances in the pharmaceutical industry is monitored closely through Occupational Health and Safety (OHS) to provide the safety of workers and a secure workplace.

Additionally, the increasing federal safety regulations and compliances for employees in the field increase the demand for smart PPE technologies. This will likely fuel the growth of the market.

Trends

The growing demand in Wearable Technology to ensure safety at Workplace is expected to boost market growth

Mishaps and accidents in the field frequently cause disruptions at the workplace, which can affect productivity. To minimize accidents in the workplace, companies have begun to adopt wearable technologies to monitor and analyze their field environments on a continuous basis.

Personal protective equipment manufacturers provide smart devices by integrating wearable technology that monitors users' behavior and external surroundings. Innovative technologies include technology like the Industrial Internet of Things (IIoT) connected devices and smart sensors artificial intelligence (AI), and enhance this technology.

For example, in an extremely noisy and dimly lit area, an employee could utilize smart helmets, intelligent glasses, and a smart communications system to communicate in real-time and increase security measures.

Thanks to the advancement of technology, the function in personal safety equipment evolved as well as offering the capability of monitoring the environment, user their health, live communications, smart security measures, and many more. Additionally, technology is aiding in enhancing productivity and ensuring safety in the workplace. This will likely drive the growth of the industry.

Challenges

Low Quality Devices and Network Connections to block the growth of markets

The intelligent PPE technology provides security, safety, and security from risky activities and incidents. Therefore, it is crucial to connect throughout the day to keep track of any changes in real-time. Any delay or error in alerting could cause severe harm to the user or the environment. Therefore, it is essential to use validated and tested equipment when working in harsh environments.

Furthermore, because this equipment has a connection, possibilities of data theft of sensitive data, both professional and personal, are extremely high. So, a poor-quality device and the unsecure connection may hinder the growth of the market. However, the use of validated and tested products with a proper plan for security of the network can allow the user to gain maximum benefit from technology.

Market Segment Analysis

"Healthcare, Oil & Gas Construction, Manufacturing - Sectors of interest for smart PPE suppliers"

The hazardous work environment in construction, manufacturing and oil and gas industries makes them a very attractive market for smart PPE businesses. Increased awareness about industrial accidents as well as the adoption of modern safety systems for workers by employers are expected to increase numbers of sales for PPE within the mentioned industry verticals moving forward.

The healthcare sector is thought to be a significant factor in smart PPE shipment in the coming ten years. The emergence of the COVID-19 pandemic in the year 2020 has emphasized the significance of personal protective equipment for healthcare workers like nothing else could. The frequent epidemics of infections as well as increasing awareness of hospital acquired illnesses (HAIs) have been predicted to increase the demand in protective clothes and other PPE products for the healthcare industry over the next decade.

Competitive Landscape of the Smart PPE Market

• 3M Company
• Seebo Interactive Ltd.
• MSA Safety
• Ansell
• Vuzix Corporation
• Intellinium
• Honeywell International Inc.
• DuPont de Nemours Inc.
• Uvex Winter Group
• Draegerwerk AG & Co.

Recent Developments in Smart PPE Market

Jan 2, 2023: After 2 years of intense R&D and industrialization efforts, Intellinium has succesfully passed the ATEX product certification (EU Type Examination Certificate) and Quality Assurance Notification (QAN) for explosive environment under the examination of the European Notified Body LCIE Bureau Veritas, one of the most internationaly trusted and demanding certification body worldwide.

In June 2021, Gales, a California-based footwear company founded in 2020, announced the launch of its first-ever line of smart PPE footwear designed specifically for nurses. The new footwear products are waterproof, antimicrobial, and slip-resistant to provide maximum safety and comfort for medical professionals and caregivers.

May 2021 - Drägerwerk AG & Co. KGaA partnered with Shell (Royal Dutch Shell plc) to supply portable gas detection equipment to all of Shell's onshore and offshore facilities and sites across the world. Through this partnership, Drägerwerk AG will deliver alcohol and drug detection equipment and personal protective equipment to Shell.

In May 2020, Kenzen, a start-up founded in 2016 and focusing on the prediction and prevention of industrial workforce injuries, announced the launch of a new worker heat monitoring system. The cloud-based system comprises a wearable device that can be worn by workers and offers real-time alerts to them as well as their supervisors when the temperature spikes past safety limits to prevent injuries.

April 2020 – Intellinium, a leading safety and protective equipment provider, partnered with Bianco, a French construction company, to launch a new smart personal protective equipment integrated with Intellinium Safety Pods technology that will allow construction workers to maintain social distancing with vibrating signal to avoid the spread of COVID-19 virus at construction sites.

Flyability, a start-up founded in 2014 and focuses on improving confined workplace safety through drone solutions to reach inaccessible spaces. The need for predictive maintenance as per the new Industry 4.0 norms is what this start-up is addressing with its novel technology and LiDAR.

Regional Insights

Why should smart PPE manufacturers Focus on both the United States and Canada?

"Rapid adoption of the latest safety technologies"

Countries within the North American region have been early adopters of a variety of modern technologies, and are home to several of the most famous industries and businesses around the globe. Rapid acceptance of industrial IoT technology and wearable devices as well as smart sensors across Canada and the United States and Canada is leading to a high demand for smart glasses and wearable PPE. They also have smart masks, remote monitoring of PPE and real-time monitoring of PPE within the North American region over the coming ten years.

Today smart PPE demand within the North American region accounts for about 30 percent part of the world market.

The efforts from governments of Canadian government to accelerate the growth that the nation is driving forward the industrialization process in Canada and is expected to provide a lucrative market for smart PPE companies in the country. The growing number of deaths from workplace accidents Canada is expected to increase the demand for smart PPE in the coming years. The federal government in Canada is also creating new programs to educate and educate workers on the safety of their workplaces.

What are the chances that smart PPE Companies Fare in China and India?

"Market driven by the availability of cheap raw Materials, the Imposition of strict Worker Safety Norms and Rapid Industrialization"

China along with India are among the leading manufacturers in Asia Pacific. China is the leading manufacturing center in Asia Pacific region and this is expected to continue for smart PPE businesses too. The existence of supportive government initiatives as well as low-cost labor and industrial activity, and a growing awareness of worker safety are other important factors which make these two regions a popular destination for established and emerging smart PPE companies.

The rising number of industrial accidents which have claimed the lives of employees in India has drawn attention from diverse organizations and is pushing the government to introduce new regulations regarding safety of workers for both business and employer.

• According to the Geneva's IndustriALL Global Union, more than 162 people lost their lives due to industrial accident in India in the year 2021.

Segments Covered in the Smart PPE Market

Smart PPE Market By Product Type

• Protective Clothing
• Head, Eye, and Face Protection
• Protective Footwear
• Hearing Protection
• Respiratory Protection
• Hand Protection
• Others

Smart PPE Market By End-use Industry

• Oil & Gas
• Construction
• Firefighting
• Manufacturing
• Healthcare Facilities
• Mining
• Others

Smart PPE Market By Region

• North America
• Latin America
• Europe
• APAC
• MEA

Frequently Asked Questions:

How big is the smart PPE market in 2023?

The Global Smart PPE Market is expected to grow rapidly at 13.8% CAGR consequently, it will grow from its existing size of from $3.52 billion in 2023 to $10.62 billion by 2030.

Which industries will lead smart PPE sales over the decade?

Manufacturing, oil & gas, healthcare, and construction industries are projected to spearhead global smart PPE demand.

Which prime smart PPE manufacturers are profiled in this Market Report Service report?

MSA Safety, Ansell, Vuzix Corporation, Intellinium, and Honeywell International Inc. are renowned smart PPE manufacturers.

1. Executive Summary

1.1. Global Market Outlook

1.2. Demand Side Trends

1.3. Supply Side Trends

1.4. Fact.MR Analysis and Recommendations

2. Market Overview

2.1. Market Coverage / Taxonomy

2.2. Market Definition / Scope / Limitations

3. Market Risks & Trends Assessment

3.1. COVID-19 Impact Benchmark with Previous Crisis

3.1.1. Change in Demand and Consumption Growth

3.1.2. Before and After COVID-19 Crisis (Projected)

3.1.3. Before and after SARS Pandemic (Actual)

3.1.4. Before and After Sub-prime Crisis – 2008 (Actual)

3.1.5. Change in Demand post Recovery Period (After Each Crisis)

3.2. Impact on Market Value (US$ Mn)

3.2.1. Likely Loss of Value in 2023

3.2.2. Mid-term and Long Term Forecast

3.2.3. Quarter by Quarter Dip and Recovery Assessment

3.3. Anticipated Demand Volume (‘000 Units) and Value (US$ Mn) Recovery Curve

3.3.1. Likelihood of U-Shape Recovery

3.3.2. Likelihood of L-Shape Recovery

3.4. Recovery Period Assessment by Key Countries

3.5. Forecast for Market

4. Market Background and Foundation Data Points

4.1. Macroeconomic Analysis: Real GDP Growth

4.2. Parent Market Overview

4.3. Preventable Work Related Fatalities U.S. (2000-2022)

4.4. Preventable Work Injuries by Sector U.S. (2018-2022)

4.5. Integration of Smart Sensing Technology with PPE

4.6. Safer working environment with IIoT in PPE

4.7. Market Dynamics

4.7.1. Drivers

4.7.2. Restraints

4.7.3. Opportunity Analysis

4.7.4. Trend

4.8. Forecast Factors - Relevance & Impact

4.8.1. Safety Industry Growth Forecast

4.8.2. Healthcare Industry Growth Forecast

4.8.3. Construction Industry Growth Forecast

4.8.4. Oil & Gas Industry Growth Forecast

4.8.5. Mining Industry Growth Forecast

4.8.6. Semiconductor Industry Growth Forecast

4.8.7. Firefighting Industry Growth Forecast

4.8.8. Product Innovation

4.8.9. Manufacturing/ Industrial Growth Forecast

4.8.10. Intensity of Competition

5. Global Market - Pricing Analysis

5.1. Regional Pricing Analysis By Product Type

5.2. Pricing Break-up

5.3. Global Average Pricing Analysis Benchmark

6. Global Market Demand (in Value or Size in US$ Mn) Analysis 2018-2022 and Forecast, 2023-2030

6.1. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis, 2018-2022

6.2. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Projections, 2023-2030

6.2.1. Y-o-Y Growth Trend Analysis

6.2.2. Absolute $ Opportunity Analysis

7. Global Market Analysis 2018-2022 and Forecast 2023-2030, By Product Type

7.1. Introduction / Key Findings

7.2. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Product Type, 2018 - 2022

7.3. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Product Type, 2023 - 2030

7.3.1. Protective Clothing

7.3.2. Head, Eye and Face Protection

7.3.3. Protective Footwear

7.3.4. Hearing Protection

7.3.5. Respiratory Protection

7.3.6. Hand Protection

7.3.7. Others

7.4. Market Attractiveness Analysis By Product Type

8. Global Market Analysis 2018-2022 and Forecast 2023-2030, By End Use

8.1. Introduction / Key Findings

8.2. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By End Use , 2018 - 2022

8.3. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By End Use , 2023 - 2030

8.3.1. Oil and Gas

8.3.2. Construction

8.3.3. Firefighting

8.3.4. Manufacturing

8.3.5. Healthcare Facilities

8.3.6. Mining

8.3.7. Others

8.4. Market Attractiveness Analysis By End Use

9. Global Market Analysis 2018-2022 and Forecast 2023-2030, By Region

9.1. Introduction / Key Findings

9.2. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

9.3. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

9.3.1. North America

9.3.2. Latin America

9.3.3. Europe

9.3.4. East Asia

9.3.5. South Asia & Oceania

9.3.6. Middle East and Africa (MEA)

9.4. Market Attractiveness Analysis By Region

10. North America Market Analysis 2018-2022 and Forecast 2023-2030

10.1. Introduction / Key Findings

10.2. Pricing Analysis

10.3. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

10.4. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

10.4.1. By Country

10.4.1.1. U.S.

10.4.1.2. Canada

10.4.2. By Product Type

10.4.3. By End Use

10.5. Market Attractiveness Analysis

10.5.1. By Country

10.5.2. By Product Type

10.5.3. By End Use

11. Latin America Market Analysis 2018-2022 and Forecast 2023-2030

11.1. Introduction / Key Findings

11.2. Pricing Analysis

11.3. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

11.4. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

11.4.1. By Country

11.4.1.1. Brazil

11.4.1.2. Mexico

11.4.1.3. Rest of Latin America

11.4.2. By Product Type

11.4.3. By End Use

11.5. Market Attractiveness Analysis

11.5.1. By Country

11.5.2. By Product Type

11.5.3. By End Use

12. Europe Market Analysis 2018-2022 and Forecast 2023-2030

12.1. Introduction / Key Findings

12.2. Pricing Analysis

12.3. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

12.4. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

12.4.1. By Country

12.4.1.1. Germany

12.4.1.2. Italy

12.4.1.3. France

12.4.1.4. Spain

12.4.1.5. Russia

12.4.1.6. BENELUX

12.4.1.7. United Kingdom

12.4.1.8. Rest of Europe

12.4.2. By Product Type

12.4.3. By End Use

12.5. Market Attractiveness Analysis

12.5.1. By Country

12.5.2. By Product Type

12.5.3. By End Use

13. East Asia Market Analysis 2018-2022 and Forecast 2023-2030

13.1. Introduction / Key Findings

13.2. Pricing Analysis

13.3. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

13.4. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

13.4.1. By Country

13.4.1.1. China

13.4.1.2. Japan

13.4.1.3. South Korea

13.4.2. By Product Type

13.4.3. By End Use

13.5. Market Attractiveness Analysis

13.5.1. By Country

13.5.2. By Product Type

13.5.3. By End Use

14. South Asia & Oceania Market Analysis 2018-2022 and Forecast 2023-2030

14.1. Introduction / Key Findings

14.2. Pricing Analysis

14.3. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

14.4. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

14.4.1. By Country

14.4.1.1. India

14.4.1.2. Indonesia

14.4.1.3. Thailand

14.4.1.4. Malaysia

14.4.1.5. Australia

14.4.1.6. Rest of South Asia & Oceania

14.4.2. By Product Type

14.4.3. By End Use

14.5. Market Attractiveness Analysis

14.5.1. By Country

14.5.2. By Product Type

14.5.3. By End Use

15. Middle East and Africa (MEA) Market Analysis 2018-2022 and Forecast 2023-2030

15.1. Introduction / Key Findings

15.2. Pricing Analysis

15.3. Historical Market Volume (‘000 Units) and Value (US$ Mn) Analysis By Region, 2018 - 2022

15.4. Current and Future Market Volume (‘000 Units) and Value (US$ Mn) Analysis and Forecast By Region, 2023 - 2030

15.4.1. By Country

15.4.1.1. GCC Countries

15.4.1.2. Turkey

15.4.1.3. Northern Africa

15.4.1.4. South Africa

15.4.1.5. Egypt

15.4.1.6. Rest of Middle East and Africa (MEA)

15.4.2. By Product Type

15.4.3. By End Use

15.5. Market Attractiveness Analysis

15.5.1. By Country

15.5.2. By Product Type

15.5.3. By End Use

16. Key Countries Market Analysis 2018-2022 and Forecast 2023-2030

16.1. Introduction

16.1.1. Market Value Proportion Analysis, By Key Countries

16.1.2. Global Vs. Country Growth Comparison

16.2. U.S. Market Analysis

16.2.1. Introduction

16.2.2. Pricing Analysis

16.2.3. Market Value Proportion Analysis by Market Taxonomy

16.2.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.2.4.1. By Product Type

16.2.4.2. By End Use

16.3. Canada Market Analysis

16.3.1. Introduction

16.3.2. Pricing Analysis

16.3.3. Market Value Proportion Analysis by Market Taxonomy

16.3.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.3.4.1. By Product Type

16.3.4.2. By End Use

16.4. Mexico Market Analysis

16.4.1. Introduction

16.4.2. Pricing Analysis

16.4.3. Market Value Proportion Analysis by Market Taxonomy

16.4.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.4.4.1. By Product Type

16.4.4.2. By End Use

16.5. Argentina Market Analysis

16.5.1. Introduction

16.5.2. Pricing Analysis

16.5.3. Market Value Proportion Analysis by Market Taxonomy

16.5.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.5.4.1. By Product Type

16.5.4.2. By End Use

16.6. Germany Market Analysis

16.6.1. Introduction

16.6.2. Pricing Analysis

16.6.3. Market Value Proportion Analysis by Market Taxonomy

16.6.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.6.4.1. By Product Type

16.6.4.2. By End Use

16.7. France Market Analysis

16.7.1. Introduction

16.7.2. Pricing Analysis

16.7.3. Market Value Proportion Analysis by Market Taxonomy

16.7.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.7.4.1. By Product Type

16.7.4.2. By End Use

16.8. Italy Market Analysis

16.8.1. Introduction

16.8.2. Pricing Analysis

16.8.3. Market Value Proportion Analysis by Market Taxonomy

16.8.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.8.4.1. By Product Type

16.8.4.2. By End Use

16.9. U.K. Market Analysis

16.9.1. Introduction

16.9.2. Pricing Analysis

16.9.3. Market Value Proportion Analysis by Market Taxonomy

16.9.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.9.4.1. By Product Type

16.9.4.2. By End Use

16.10. Spain Market Analysis

16.10.1. Introduction

16.10.2. Pricing Analysis

16.10.3. Market Value Proportion Analysis by Market Taxonomy

16.10.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.10.4.1. By Product Type

16.10.4.2. By End Use

16.11. Russia Market Analysis

16.11.1. Introduction

16.11.2. Pricing Analysis

16.11.3. Market Value Proportion Analysis by Market Taxonomy

16.11.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.11.4.1. By Product Type

16.11.4.2. By End Use

16.12. South Korea Market Analysis

16.12.1. Introduction

16.12.2. Pricing Analysis

16.12.3. Market Value Proportion Analysis by Market Taxonomy

16.12.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.12.4.1. By Product Type

16.12.4.2. By End Use

16.13. India Market Analysis

16.13.1. Introduction

16.13.2. Pricing Analysis

16.13.3. Market Value Proportion Analysis by Market Taxonomy

16.13.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.13.4.1. By Product Type

16.13.4.2. By End Use

16.14. Indonesia Market Analysis

16.14.1. Introduction

16.14.2. Pricing Analysis

16.14.3. Market Value Proportion Analysis by Market Taxonomy

16.14.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.14.4.1. By Product Type

16.14.4.2. By End Use

16.15. Malaysia Market Analysis

16.15.1. Introduction

16.15.2. Pricing Analysis

16.15.3. Market Value Proportion Analysis by Market Taxonomy

16.15.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.15.4.1. By Product Type

16.15.4.2. By End Use

16.16. Thailand Market Analysis

16.16.1. Introduction

16.16.2. Pricing Analysis

16.16.3. Market Value Proportion Analysis by Market Taxonomy

16.16.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.16.4.1. By Product Type

16.16.4.2. By End Use

16.17. Australia Market Analysis

16.17.1. Introduction

16.17.2. Pricing Analysis

16.17.3. Market Value Proportion Analysis by Market Taxonomy

16.17.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.17.4.1. By Product Type

16.17.4.2. By End Use

16.18. GCC Countries Market Analysis

16.18.1. Introduction

16.18.2. Pricing Analysis

16.18.3. Market Value Proportion Analysis by Market Taxonomy

16.18.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.18.4.1. By Product Type

16.18.4.2. By End Use

16.19. China Market Analysis

16.19.1. Introduction

16.19.2. Pricing Analysis

16.19.3. Market Value Proportion Analysis by Market Taxonomy

16.19.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.19.4.1. By Product Type

16.19.4.2. By End Use

16.20. Japan Market Analysis

16.20.1. Introduction

16.20.2. Pricing Analysis

16.20.3. Market Value Proportion Analysis by Market Taxonomy

16.20.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.20.4.1. By Product Type

16.20.4.2. By End Use

16.21. South Africa Market Analysis

16.21.1. Introduction

16.21.2. Pricing Analysis

16.21.3. Market Value Proportion Analysis by Market Taxonomy

16.21.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.21.4.1. By Product Type

16.21.4.2. By End Use

16.22. Turkey Market Analysis

16.22.1. Introduction

16.22.2. Pricing Analysis

16.22.3. Market Value Proportion Analysis by Market Taxonomy

16.22.4. Market Value (US$ Mn) Analysis and Forecast by Market Taxonomy

16.22.4.1. By Product Type

16.22.4.2. By End Use

17. Market Structure Analysis

17.1. Market Analysis by Tier of Companies (Smart PPE)

17.2. Market Concentration

17.3. Market Share Analysis of Top Players

17.4. Market Presence Analysis

18. Competition Analysis

18.1. Competition Dashboard

18.2. Competition Benchmarking

18.3. Competition Deep Dive

18.3.1. 3M Company

18.3.1.1. Overview

18.3.1.2. Product Portfolio

18.3.1.3. Segmental Revenue

18.3.1.4. Regional Revenue

18.3.1.5. Production clusters & Capacity*

18.3.1.6. SWOT analysis

18.3.2. Honeywell International Inc.

18.3.2.1. Overview

18.3.2.2. Product Portfolio

18.3.2.3. Segmental Revenue

18.3.2.4. Regional Revenue

18.3.2.5. Production clusters & Capacity*

18.3.2.6. SWOT analysis

18.3.3. MSA Safety

18.3.3.1. Overview

18.3.3.2. Product Portfolio

18.3.3.3. Segmental Revenue

18.3.3.4. Regional Revenue

18.3.3.5. Production clusters & Capacity*

18.3.3.6. SWOT analysis

18.3.4. Intellinium

18.3.4.1. Overview

18.3.4.2. Product Portfolio

18.3.4.3. Segmental Revenue

18.3.4.4. Regional Revenue

18.3.4.5. Production clusters & Capacity*

18.3.4.6. SWOT analysis

18.3.5. Seebo Interactive Ltd.

18.3.5.1. Overview

18.3.5.2. Product Portfolio

18.3.5.3. Segmental Revenue

18.3.5.4. Regional Revenue

18.3.5.5. Production clusters & Capacity*

18.3.5.6. SWOT analysis

18.3.6. Vuzix Corporation

18.3.6.1. Overview

18.3.6.2. Product Portfolio

18.3.6.3. Segmental Revenue

18.3.6.4. Regional Revenue

18.3.6.5. Production clusters & Capacity*

18.3.6.6. SWOT analysis

18.3.7. Draegerwerk AG & Co

18.3.7.1. Overview

18.3.7.2. Product Portfolio

18.3.7.3. Segmental Revenue

18.3.7.4. Regional Revenue

18.3.7.5. Production clusters & Capacity*

18.3.7.6. SWOT analysis

18.3.8. Ansell

18.3.8.1. Overview

18.3.8.2. Product Portfolio

18.3.8.3. Segmental Revenue

18.3.8.4. Regional Revenue

18.3.8.5. Production clusters & Capacity*

18.3.8.6. SWOT analysis

18.3.9. DuPont de Nemours Inc.

18.3.9.1. Overview

18.3.9.2. Product Portfolio

18.3.9.3. Segmental Revenue

18.3.9.4. Regional Revenue

18.3.9.5. Production clusters & Capacity*

18.3.9.6. SWOT analysis

18.3.10. Uvex Winter Group

18.3.10.1. Overview

18.3.10.2. Product Portfolio

18.3.10.3. Segmental Revenue

18.3.10.4. Regional Revenue

18.3.10.5. Production clusters & Capacity*

18.3.10.6. SWOT analysis

18.3.11. Other key players

18.3.11.1. Overview

18.3.11.2. Product Portfolio

18.3.11.3. Segmental Revenue

18.3.11.4. Regional Revenue

18.3.11.5. Production clusters & Capacity*

18.3.11.6. SWOT analysis

19. Assumptions and Acronyms Used

20. Research Methodology

Segments Covered in the Smart PPE Market

Smart PPE Market By Product Type

• Protective Clothing
• Head, Eye, and Face Protection
• Protective Footwear
• Hearing Protection
• Respiratory Protection
• Hand Protection
• Others

Smart PPE Market By End-use Industry

• Oil & Gas
• Construction
• Firefighting
• Manufacturing
• Healthcare Facilities
• Mining
• Others

Smart PPE Market By Region

• North America
• Latin America
• Europe
• APAC
• MEA

Research Methodology