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[285 Pages Report] The DDoS protection and mitigation security market is anticipated to have a prodigious CAGR of 13.4% during the period of 2022 to 2032. The DDoS Protection and Mitigation Security Market are anticipated to reach US$ 13.3 Billion in 2032, from US$ 3.8 Billion in 2022.
The Global DDoS protection and mitigation security market is primarily driven by the increasing number of attacks, which is an essential factor propelling the market growth during the analysis period.
The key factors such as growing demand for sophisticated security solutions, evolving regulatory landscape, and growing volumes of business data across industries are expected to accelerate the DDoS Protection and Mitigation market during the forecast period.
Attributes | Details |
---|---|
DDoS Protection and Mitigation Security Market CAGR (2022 to 2032) | 13.4% |
DDoS Protection and Mitigation Security Market (2022) | US$ 3.8 Billion |
DDoS Protection and Mitigation Security Market (2032) | US$ 13.3 Billion |
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Increase in the number of DDoS threats across the IoT ecosystem to propel the market growth
The IoT (Internet of Things) ecosystem consists of numerous connected devices, gateways, servers, and other endpoints. With IoT gaining traction in a multitude of industries, such as smart manufacturing, healthcare, and connected vehicles, and expanding the scope of its applications, the network in use is growing complex and the number of devices in the connected ecosystem is multiplying. With changes in the business environment, security requirements are also changing. IoT devices are becoming a part of our lives; as a result, the ability of new botnets to infect, attack, and wreak havoc is also increasing rapidly. In the IoT system, most of the data is stored in the cloud.
According to Ericsson’s Mobility Report and the Internet of Things Forecast, there would be 18 billion IoT devices by 2022. The widespread use of IoT devices is observed in several application areas, such as smart city projects, smart transportation, vehicular connectivity and autonomous vehicles, smart grids, and smart homes. the number of IoT devices is increasing at a rapid pace, and various industry verticals are innovating new technological use cases using IoT devices.
They are subject to high-intensity DDoS attacks. Hence, stringent DDoS protection and mitigation solutions are required to safeguard the entire infrastructure against DDoS attacks induced by IoT devices. Other significant botnets include Reaper, Satori, and WireX. With the increasing threat landscape of IoT devices, the demand for DDoS protection and mitigation solutions and services is bound to increase at a high rate.
The Surge in Multi-Vector DDoS Attacks to Fuel Market Growth
The instances of massive DDoS attacks are gradually increasing across the globe. The attackers are using sophisticated tools to induce attacks, which may go undetected during the initial phases. Some of the significant DDoS attacks include Domain Name System (DNS) amplification attacks, NTP attacks, and Chargen-focused attacks. The multiple attack techniques used by hacktivist groups are leading to huge financial losses for individuals, enterprises, and governments.
The major objectives behind launching these multi-vector DDoS attacks are monetary gains, political rivalries, international rivalries, radical religious group interests, and cyberterrorism. The multi-vector DDoS attacks usually use different attack vectors per attack to distract IT security response teams. They last for a few minutes and then stop. After the attacks, the IT response teams take immediate action by rebooting servers, which causes severe downtime.
Meanwhile, attackers launch different attack vectors that pass through defense systems and hit web servers, hindering the services for legitimate users. There are different attack vectors, such as volumetric DDoS attacks, protocol attacks, and application layer attacks. By combining these attack vectors, cybercriminals launch multi-vector DDoS attacks that create a bigger impact as compared to that volumetric attacks. The volumetric attacks are targeted toward layers 3 and 4, which are the network and transport layers. These layers are responsible for adding new headers to network packets, which include the source and destination addresses.
The main aim of volumetric attacks is to cause traffic congestion by flooding networks with numerous illegitimate network packets. The traffic congestion on the internet, servers, network resources, and other appliances results in downtime. Due to increased traffic packets and traffic congestion, most of the affected resources are unable to perform any task or handle any request. The volumetric DDoS attacks come with a scale of 100 Gbps to 1 Tbps and are increasing with each day. Attackers may introduce malware in devices to induce a high-intensity DDoS attack.
Sweep period of attacks, large-scale traffic defense with zero latency, and SSL-encrypted attacks in the DDoS area
Cybercriminals direct DDoS traffic to victims’ network infrastructure, thereby resulting in high-intensity attacks of longer durations. Advanced DDoS attacks launched on IoT devices sustain longer, due to which enterprises find it difficult to differentiate them from legitimate traffic. This disrupts the functioning of the entire network infrastructure, thereby affecting organizational operations.
DDoS solution providers are continually introducing new technologies, such as virtual learning and behavioral analytics, to ensure threat prediction and mitigate DDoS attacks with zero latency. However, large-scale protection from volumetric DDoS attacks with zero latency is still difficult to achieve.
With the advent of technologies, cyber-attackers are coming up with sophisticated attacking tools to launch voluminous DDoS attacks. These sophisticated DDoS attacks hamper the exchange of information across network and transport layers, thereby disrupting data privacy and network infrastructure functioning. Massive-scale volumetric attack types, such as NTP amplification, DNS amplification, UDP flood, and TCP flood, consume the entire bandwidth of networks and resources. The evolving nature of DDoS attacking technologies is forcing DDoS protection and mitigation solution providers to have a proactive defense system in place for the network- and application-level services.
Enterprises are encrypting their network communication protocols to maintain the privacy and integrity of business-critical data. With a rise in the use of the internet, enterprises are deploying Secure Sockets Layer (SSL)-encrypted technologies to combat the network layer and transport layer DDoS attacks. Cybercriminals are also using SSL to launch DDoS attacks on SSL-encrypted traffic, making it difficult for enterprises to differentiate between legitimate and malicious traffic. The DDoS attacks are complex in nature and remain hidden from malware detection tools. Therefore, it is quite challenging for DDoS protection and mitigation solution vendors to combat such hidden DDoS attacks.
Budget constraints among SMEs hinder the adoption
Information security is a top priority for enterprises of all sizes. Cybersecurity expenditure is a matter of concern for several organizations, such as Small and Medium-sized Enterprises (SMEs). Most SMEs are adopting security solutions and implementing security policies as per their requirements and financial power.
It is a challenge for SMEs to invest huge capital in cybersecurity, as they also have to invest in other IT infrastructures. The SMEs may not prefer purchasing DDoS solutions from leading DDoS vendors who provide solutions with top-notch features. Customers select vendors who provide customized solutions. The SMEs may select a DDoS solution or service with limited features.
These SMEs prefer compromising certain features, as they do not have the required budget or believe that they could not be attacked for financial gains. The lack of awareness of low and slow DDoS attacks is also a concern for most SMEs. Due to this concern, they are not willing to pay for protection from low and slow DDoS attacks. Companies have to think twice about investing in regions with developing economies, such as MEA, due to low cyber defense budgets in these regions. Furthermore, with the implementation of GDPR, SMEs need to adopt DDoS protection and mitigation solutions and services to meet compliance requirements.
Increasing Instances of Sophisticated DDoS Attacks to Drive the Market
The rapidly rising instances of DDoS attacks across multiple industries, which have resulted in the disruption of crucial organizational services resulting in the loss of millions of dollars for multiple companies, have increased the focus on robust protection solutions across emerging economies.
Network layer attacks that target exposed network infrastructure such as inline routers and other network servers significantly impact data centers where a major share of IT and telecom vendors operate. According to Cloudflare, about 44% of Network Layer Attacks occurred in January 2021, with synchronizing flag (SYN) packet flood attacks remaining the most common. Other attacks noted included reset flag (RST) packets, user datagram protocol (UDP), and domain name system amplification attacks. Due to such developments, DDoS protection is becoming vital for vendors operating in these industries.
The increased bandwidth and low latency in 5G are further anticipated to increase the volume and severity of the attacks. According to Corero's study, the higher bandwidth of 5G enables advanced botnets to harness as many mobiles or IoT devices as possible to cripple their targets.
As businesses across the globe are growing, new and advanced persistent threats have been exposing critical services to risk. This has encouraged organizations to deploy better DDoS solutions in order to safeguard their endpoints and networks against potential attacks.?
DDoS Protection and Mitigation Security Market:
Attributes | DDoS Protection and Mitigation Security Market |
---|---|
CAGR (2022 to 2032) | 13.4% |
Market Value (2032) | US$ 13.3 Billion |
Growth Factor | A rise in multi-vector DDoS attacks is expected to fuel market growth. |
Opportunity | Ease of availability of DDoS-for-hire services would provide lucrative opportunities for DDoS Protection and Mitigation vendors. |
Key Trends | An increase in the number of attacks has surged the adoption of DDoS protection and Mitigation solution. |
Sales Email Tracking Tools Market:
Attributes | Sales Email Tracking Tools Market |
---|---|
CAGR (2022 to 2032) | 11.1% |
Market Value (2032) | US$ 17.8 Billion |
Growth Factor | Increasing use of Sales Email Tracking Tools Market in businesses associated with the business-to-customer and business-to-business level are the major driving factors that will fuel the market growth. |
Opportunity | Increasing development in sales email tracking tools and various new features getting added for tracking the email will grow the demand and is anticipated to foster market growth on a large scale in near future. |
Key Trends | An increase in demand for the Sales Email Tracking Tools Market is expected from banking and finance services which will grow the market over the forecast period. |
Customer Journey Mapping Software Market:
Attributes | Customer Journey Mapping Software Market |
---|---|
CAGR (2022 to 2032) | 16.3% |
Market Value (2032) | US$ 48.5 Billion |
Growth Factor | The rise in the adoption of cloud-based products and services by SMEs across the globe is expected to fuel market growth. |
Opportunity | Increasing focus on improving data quality and security of customer data has created an opportunity for new providers to enter the market with innovative solutions, which are driving competition among established players as well. |
Key Trends | A strong focus on customer experience is boosting demand for Customer Journey Mapping. |
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Services segment to witness considerable CAGR for the market growth
The services segment of the DDoS protection and mitigation security market accounts for the highest CAGR of 13.1% during the forecast period. Cyberattacks on websites are increasing at an alarming rate and have compelled organizations to adopt robust security services to address risks in the continuously evolving threat landscape. With the increasing adoption of DDoS solutions across organizations and service providers, the demand for supporting services is also expected to increase among organizations.
The DDoS protection and mitigation market on the basis of services is segmented into professional and managed services. Furthermore, the professional services segment is segmented into design and implementation, consulting and advisory, training and education, and support and maintenance. As most businesses lack the technical expertise to manage their network infrastructure and application layer attacks, professional service providers offer ways to overcome this problem.
The services offered by DDoS protection and mitigation vendors help safeguard websites, networks, layer 3, and layer 7 threats. DDoS services protect websites, networks, and critical infrastructure devices, as well as, reduce downtime and business risks. These services protect organizations from NTP amplification, DNS amplification, HTTP flood, SYN flood, Slowloris, spoofing, and volumetric attacks. DDoS attacks ranging from 200 Gbps to 1.3 Gbps are the largest and most severely damaging. The DDoS service providers are continuously integrating advanced technologies to stop such DoS/DDoS attacks. Additionally, they provide support services and access to a 24/7 DDoS response team.
DDoS attacks cause 3 million or more packets per second to be transferred illegitimately, thereby blocking the resources for legitimate users. Services offered by DDoS protection and mitigation vendors have been classified into professional and managed services. Some vendors also provide DDoS testing services to test resources for high-intensity DDoS attacks.
Cloud Segment is likely to be the highest CAGR holder for the market growth
The cloud segment of the DDoS protection and mitigation security market is expected to grow at the highest CAGR of 13.3% during the forecast period. Under the solutions segment, cloud-based deployment of DDoS Protection and Mitigation Security will dominate the market over the forecast period, as the cloud technology provides better flexibility, a high degree of security, and a level of control and it is also a cost-effective solution.
Cloud deployment helps businesses to accomplish cross-channel communication with their customers, enabling them to send information via emails, text messages, push alerts, in-app, and web notifications, as well as on-site warnings. It can also be used to share online and offline reviews as well as feedback reports with customers.
Adoption of AI and ML to Widen Scope of Market
Among all the regions, North America is expected to be the largest contributor in terms of the adoption of DDoS protection and mitigation solutions and services. The top countries contributing to the growth of the DDoS protection and mitigation market in the region are the US and Canada. Organizations in the countries of this region, especially in the US, have leveraged the benefits of AI, ML, and deep learning technologies to stay ahead in the market. North American countries have well-established economies, which enable DDoS protection and mitigation vendors to invest in new technologies.
The region is regarded as the center of innovation because the major North American IT companies roll out new offerings and aggressive collaborations take place in the region. The organizations in the region have been massively adopting PCs for streamlining their work processes. Additionally, the rapid penetration of mobile devices, such as smartphones, laptops, and USBs, and the imperative need to secure data residing within companies and being transferred over business networks are driving the adoption of DDoS protection and mitigation solutions in North America. The key growth drivers of the North American DDoS protection and mitigation market are widespread adherence to data compliance regulations by all enterprises and rapid cloud deployment. Furthermore, due to the high adoption of cloud-based applications in North America, attacks are dramatically increasing and becoming more sophisticated.
The countries in North America are expected to extensively implement DDoS protection and mitigation solutions for enabling data security, preventing cyber-attacks and commercial espionage, and ensuring the security and privacy of data to facilitate business continuity. Presently, North America is the largest revenue contributor to the global DDoS protection and mitigation market.
The USA is expected to hold a significant position in the global DDoS Protection and Mitigation Security Market, experiencing a CAGR of 13.2% during the forecast period, to reach US$ 4.7 Billion.
DDoS Protection and Mitigation Security Market in Japan to Witness Better Growth Opportunities
Across Asia-Pacific, there are a number of prosperous economies with well-developed cyber ecosystems. The economies include India, China, Australia, and New Zealand. These economies show rapid adoption of DDoS protection and mitigation solutions to gain visibility into their networks. Large enterprises and SMEs in APAC countries are recognizing the significance of data security. They are now more receptive toward adopting dedicated DDoS protection and mitigation solutions to protect their critical and sensitive business data from commercial espionage, cyber threats, and computer hackers.
The increasing advancements in mobility and rising cloud adoption in APAC, coupled with mandatory compliance with certain government regulations for resolving data security issues, have compelled companies in the region to adopt DDoS protection and mitigation solutions. Moreover, with the rising intensity and complexity of cyber-attacks, the data security concerns of the businesses in the region have further heightened. According to a report by Imperva, the Asia Pacific was the target for Network DDOS attacks in the first half of 2021 which was 46% of all the attacks.
APAC countries such as Australia and New Zealand, India, China, and Japan have widely adopted DDoS protection and mitigation solutions. The proliferation of smartphones, DDoS attacks on networks, and broadband connectivity augmented by the emergence of advanced technologies, such as IoT, mobility, and cloud, in the region are expected to drive the growth of the DDoS protection and mitigation market.
China is expected to represent the highest CAGR of 12.6% in the DDoS protection and mitigation security market during the forecast period, to reach US$ 930 Million. On the other hand, Japan is expected to represent the highest CAGR of 11.7% in the DDoS protection and mitigation security market during the forecast period, to reach US$ 750.0 Million.
Netscout, Akamai Technology, Radware, Huawei Technology, Fortinet, Link11, Imperva, Cloudflare, BT, A10 Networks, Fastly, StackPath, Seceon, Nexusguard, HaltDos, Corero, RioRey, PhoenixNAP, DDoS-Guard, Allot, StrataCore, Sucuri, Verisign, Indusface, and Activereach, among others are the top companies in the global DDoS protection and mitigation security market.
With a sizable DDoS protection and mitigation security market share, these main firms are concentrating on growing their consumer base in new countries. These businesses are making use of strategic collaboration initiatives to grow their market share and profits.
Mid-size and smaller businesses, on the other hand, are expanding their market presence by gaining new contracts and entering new markets, thanks to technical developments and product innovations.
Recent Developments:
As of 2021, the market for DDoS Protection and Mitigation Security was valued at US$ 3.3 Billion, as per FMI
By 2022-end, sales of DDoS Protection and Mitigation Security closed at a value of US$ 3.8 Billion
From 2015 to 2021, DDoS Protection and Mitigation Security demand expanded at a CAGR of 15.4%
From 2022 to 2032, DDoS Protection and Mitigation Security sales are expected to flourish at a CAGR of 13.4%
By 2032, the market value of DDoS Protection and Mitigation Security is expected to reach US$ 13.3 Billion.
From 2022 to 2032, DDoS Protection and Mitigation Security demand in the US is expected to surge at a CAGR of 13.2%
By Component, the Services category constitutes the bulk of market share with a CAGR of 13.1%.
By Deployment Mode, the cloud category of DDoS Protection and Mitigation Security is expected to dominate the market with a CAGR of 13.3%.
1. Executive Summary | DDoS Protection and Mitigation Security Market 1.1. Global Market Outlook 1.2. Summary of Statistics 1.3. Key Market Characteristics & Attributes 1.4. FMI Analysis and Recommendations 2. Market Overview 2.1. Market Coverage 2.2. Market Definition 3. Market Risks and Trends Assessment 3.1. Risk Assessment 3.1.1. COVID-19 Crisis and Impact on 3.1.2. COVID-19 Impact Benchmark with Previous Crisis 3.1.3. Impact on Market Value (US$ Million) 3.1.4. Assessment by Key Countries 3.1.5. Assessment by Key Market Segments 3.1.6. Action Points and Recommendation for Suppliers 3.2. Key Trends Impacting the Market 3.3. Formulation and Product Development Trends 4. Market Background 4.1. Market, by Key Countries 4.2. Market Opportunity Assessment (US$ Million) 4.2.1. Total Available Market 4.2.2. Serviceable Addressable Market 4.2.3. Serviceable Obtainable Market 4.3. Market Scenario Forecast 4.3.1. Demand in Optimistic Scenario 4.3.2. Demand in Likely Scenario 4.3.3. Demand in Conservative Scenario 4.4. Investment Feasibility Analysis 4.4.1. Investment in Established Markets 4.4.1.1. In Short Term 4.4.1.2. In Long Term 4.4.2. Investment in Emerging Markets 4.4.2.1. In Short Term 4.4.2.2. In Long Term 4.5. Forecast Factors - Relevance & Impact 4.5.1. Top Companies Historical Growth 4.5.2. Growth in Automation, By Country 4.5.3. Adoption Rate, By Country 4.6. Market Dynamics 4.6.1. Market Driving Factors and Impact Assessment 4.6.2. Prominent Market Challenges and Impact Assessment 4.6.3. Market Opportunities 4.6.4. Prominent Trends in the Global Market & Their Impact Assessment 5. Key Success Factors 5.1. Manufacturers’ Focus on Low Penetration High Growth Markets 5.2. Banking on with Segments High Incremental Opportunity 5.3. Peer Benchmarking 6. Global Market Demand Analysis 2015 to 2021 and Forecast, 2022 to 2032 6.1. Historical Market Analysis, 2015 to 2021 6.2. Current and Future Market Projections, 2022 to 2032 6.3. Y-o-Y Growth Trend Analysis 7. Global Market Value Analysis 2015 to 2021 and Forecast, 2022 to 2032 7.1. Historical Market Value (US$ Million) Analysis, 2015 to 2021 7.2. Current and Future Market Value (US$ Million) Projections, 2022 to 2032 7.2.1. Y-o-Y Growth Trend Analysis 7.2.2. Absolute $ Opportunity Analysis 8. Global Market Analysis 2015 to 2021 and Forecast 2022 to 2032, By Component 8.1. Introduction / Key Findings 8.2. Historical Market Size (US$ Million) Analysis By Component, 2015 to 2021 8.3. Current and Future Market Size (US$ Million) Analysis and Forecast By Component, 2022 to 2032 8.3.1. Hardware Solution 8.3.2. Software Solution 8.3.3. Services 8.4. Market Attractiveness Analysis By Component 9. Global Market Analysis 2015 to 2021 and Forecast 2022 to 2032, By Vertical 9.1. Introduction / Key Findings 9.2. Historical Market Size (US$ Million) Analysis By Vertical, 2015 to 2021 9.3. Current and Future Market Size (US$ Million) Analysis and Forecast By Vertical, 2022 to 2032 9.3.1. Government and Defense 9.3.2. BFSI 9.3.3. Manufacturing 9.3.4. Energy and Utility 9.3.5. IT and Telecommunication 9.3.6. Healthcare 9.3.7. Education 9.3.8. Retail 9.3.9. Other 9.4. Market Attractiveness Analysis By Vertical 10. Global Market Analysis 2015 to 2021 and Forecast 2022 to 2032, By Deployment Mode 10.1. Introduction / Key Findings 10.2. Historical Market Size (US$ Million) Analysis By Deployment Mode, 2015 to 2021 10.3. Current and Future Market Size (US$ Million) Analysis and Forecast By Deployment Mode, 2022 to 2032 10.3.1. On-premises 10.3.2. Cloud 10.3.3. Hybrid 10.4. Market Attractiveness Analysis By Deployment Mode 11. Global Market Analysis 2015 to 2021 and Forecast 2022 to 2032, By Application Area 11.1. Introduction / Key Findings 11.2. Historical Market Size (US$ Million) Analysis By Application Area, 2015 to 2021 11.3. Current and Future Market Size (US$ Million) Analysis and Forecast By Application Area, 2022 to 2032 11.3.1. Network security 11.3.2. Endpoint Security 11.3.3. Application Security 11.3.4. Database security 11.4. Market Attractiveness Analysis By Application Area 12. Global Market Analysis 2015 to 2021 and Forecast 2022 to 2032, By Region 12.1. Introduction 12.2. Historical Market Size (US$ Million) Analysis By Region, 2015 to 2021 12.3. Current Market Size (US$ Million) & Analysis and Forecast By Region, 2022 to 2032 12.3.1. North America 12.3.2. Latin America 12.3.3. Europe 12.3.4. Asia Pacific 12.3.5. Middle East and Africa (MEA) 12.4. Market Attractiveness Analysis By Region 13. North America Market Analysis 2015 to 2021 and Forecast 2022 to 2032 13.1. Introduction 13.2. Pricing Analysis 13.3. Historical Market Value (US$ Million) Trend Analysis By Market Taxonomy, 2015 to 2021 13.4. Market Value (US$ Million) & Forecast By Market Taxonomy, 2022 to 2032 13.4.1. By Country 13.4.1.1. United States of America 13.4.1.2. Canada 13.4.1.3. Rest of North America 13.4.2. By Component 13.4.3. By Vertical 13.4.4. By Application Area 13.4.5. By Deployment Mode 13.5. Market Attractiveness Analysis 13.5.1. By Country 13.5.2. By Component 13.5.3. By Vertical 13.5.4. By Application Area 13.5.5. By Deployment Mode 14. Latin America Market Analysis 2015 to 2021 and Forecast 2022 to 2032 14.1. Introduction 14.2. Pricing Analysis 14.3. Historical Market Value (US$ Million) Trend Analysis By Market Taxonomy, 2015 to 2021 14.4. Market Value (US$ Million) & Forecast By Market Taxonomy, 2022 to 2032 14.4.1. By Country 14.4.1.1. Brazil 14.4.1.2. Mexico 14.4.1.3. Rest of Latin America 14.4.2. By Component 14.4.3. By Vertical 14.4.4. By Application Area 14.4.5. By Deployment Mode 14.5. Market Attractiveness Analysis 14.5.1. By Country 14.5.2. By Component 14.5.3. By Vertical 14.5.4. By Application Area 14.5.5. By Deployment Mode 15. Europe Market Analysis 2015 to 2021 and Forecast 2022 to 2032 15.1. Introduction 15.2. Pricing Analysis 15.3. Historical Market Value (US$ Million) Trend Analysis By Market Taxonomy, 2015 to 2021 15.4. Market Value (US$ Million) & Forecast By Market Taxonomy, 2022 to 2032 15.4.1. By Country 15.4.1.1. Germany 15.4.1.2. France 15.4.1.3. United Kingdom 15.4.1.4. Italy 15.4.1.5. Benelux 15.4.1.6. Nordic Countries 15.4.1.7. Rest of Europe 15.4.2. By Component 15.4.3. By Vertical 15.4.4. By Application Area 15.4.5. By Deployment Mode 15.5. Market Attractiveness Analysis 15.5.1. By Country 15.5.2. By Component 15.5.3. By Vertical 15.5.4. By Application Area 15.5.5. By Deployment Mode 16. Asia Pacific Market Analysis 2015 to 2021 and Forecast 2022 to 2032 16.1. Introduction 16.2. Pricing Analysis 16.3. Historical Market Value (US$ Million) Trend Analysis By Market Taxonomy, 2015 to 2021 16.4. Market Value (US$ Million) & Forecast By Market Taxonomy, 2022 to 2032 16.4.1. By Country 16.4.1.1. China 16.4.1.2. Japan 16.4.1.3. South Korea 16.4.1.4. Rest of Asia Pacific 16.4.2. By Component 16.4.3. By Vertical 16.4.4. By Application Area 16.4.5. By Deployment Mode 16.5. Market Attractiveness Analysis 16.5.1. By Country 16.5.2. By Component 16.5.3. By Vertical 16.5.4. By Application Area 16.5.5. By Deployment Mode 17. Middle East and Africa Market Analysis 2015 to 2021 and Forecast 2022 to 2032 17.1. Introduction 17.2. Pricing Analysis 17.3. Historical Market Value (US$ Million) Trend Analysis By Market Taxonomy, 2015 to 2021 17.4. Market Value (US$ Million) & Forecast By Market Taxonomy, 2022 to 2032 17.4.1. By Country 17.4.1.1. GCC Countries 17.4.1.2. South Africa 17.4.1.3. Turkey 17.4.1.4. Rest of Middle East and Africa 17.4.2. By Component 17.4.3. By Vertical 17.4.4. By Application Area 17.4.5. By Deployment Mode 17.5. Market Attractiveness Analysis 17.5.1. By Country 17.5.2. By Component 17.5.3. By Vertical 17.5.4. By Application Area 17.5.5. By Deployment Mode 18. Key Countries Market Analysis 2015 to 2021 and Forecast 2022 to 2032 18.1. Introduction 18.1.1. Market Value Proportion Analysis, By Key Countries 18.1.2. Global Vs. Country Growth Comparison 18.2. US Market Analysis 18.2.1. Value Proportion Analysis by Market Taxonomy 18.2.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.2.2.1. By Component 18.2.2.2. By Vertical 18.2.2.3. By Application Area 18.2.2.4. By Deployment Mode 18.3. Canada Market Analysis 18.3.1. Value Proportion Analysis by Market Taxonomy 18.3.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.3.2.1. By Component 18.3.2.2. By Vertical 18.3.2.3. By Application Area 18.3.2.4. By Deployment Mode 18.4. Mexico Market Analysis 18.4.1. Value Proportion Analysis by Market Taxonomy 18.4.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.4.2.1. By Component 18.4.2.2. By Vertical 18.4.2.3. By Application Area 18.4.2.4. By Deployment Mode 18.5. Brazil Market Analysis 18.5.1. Value Proportion Analysis by Market Taxonomy 18.5.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.5.2.1. By Component 18.5.2.2. By Vertical 18.5.2.3. By Application Area 18.5.2.4. By Deployment Mode 18.6. Germany Market Analysis 18.6.1. Value Proportion Analysis by Market Taxonomy 18.6.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.6.2.1. By Component 18.6.2.2. By Vertical 18.6.2.3. By Application Area 18.6.2.4. By Deployment Mode 18.7. France Market Analysis 18.7.1. Value Proportion Analysis by Market Taxonomy 18.7.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.7.2.1. By Component 18.7.2.2. By Vertical 18.7.2.3. By Application Area 18.7.2.4. By Deployment Mode 18.8. Italy Market Analysis 18.8.1. Value Proportion Analysis by Market Taxonomy 18.8.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.8.2.1. By Component 18.8.2.2. By Vertical 18.8.2.3. By Application Area 18.8.2.4. By Deployment Mode 18.9. BENELUX Market Analysis 18.9.1. Value Proportion Analysis by Market Taxonomy 18.9.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.9.2.1. By Component 18.9.2.2. By Vertical 18.9.2.3. By Application Area 18.9.2.4. By Deployment Mode 18.10. UK Market Analysis 18.10.1. Value Proportion Analysis by Market Taxonomy 18.10.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.10.2.1. By Component 18.10.2.2. By Vertical 18.10.2.3. By Application Area 18.10.2.4. By Deployment Mode 18.11. Nordic Countries Market Analysis 18.11.1. Value Proportion Analysis by Market Taxonomy 18.11.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.11.2.1. By Component 18.11.2.2. By Vertical 18.11.2.3. By Application Area 18.11.2.4. By Deployment Mode 18.12. China Market Analysis 18.12.1. Value Proportion Analysis by Market Taxonomy 18.12.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.12.2.1. By Component 18.12.2.2. By Vertical 18.12.2.3. By Application Area 18.12.2.4. By Deployment Mode 18.13. Japan Market Analysis 18.13.1. Value Proportion Analysis by Market Taxonomy 18.13.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.13.2.1. By Component 18.13.2.2. By Vertical 18.13.2.3. By Application Area 18.13.2.4. By Deployment Mode 18.14. South Korea Market Analysis 18.14.1. Value Proportion Analysis by Market Taxonomy 18.14.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.14.2.1. By Component 18.14.2.2. By Vertical 18.14.2.3. By Application Area 18.14.2.4. By Deployment Mode 18.15. GCC Countries Market Analysis 18.15.1. Value Proportion Analysis by Market Taxonomy 18.15.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.15.2.1. By Component 18.15.2.2. By Vertical 18.15.2.3. By Application Area 18.15.2.4. By Deployment Mode 18.16. South Africa Market Analysis 18.16.1. Value Proportion Analysis by Market Taxonomy 18.16.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.16.2.1. By Component 18.16.2.2. By Vertical 18.16.2.3. By Application Area 18.16.2.4. By Deployment Mode 18.17. Turkey Market Analysis 18.17.1. Value Proportion Analysis by Market Taxonomy 18.17.2. Value Analysis and Forecast by Market Taxonomy, 2015 to 2032 18.17.2.1. By Component 18.17.2.2. By Vertical 18.17.2.3. By Application Area 18.17.2.4. By Deployment Mode 18.17.3. Competition Landscape and Player Concentration in the Country 19. Market Structure Analysis 19.1. Market Analysis by Tier of Companies 19.2. Market Concentration 19.3. Market Share Analysis of Top Players 19.4. Market Presence Analysis 19.4.1. By Regional Footprint of Players 19.4.2. Product Footprint by Players 20. Competition Analysis 20.1. Competition Dashboard 20.2. Competition Benchmarking 20.3. Competition Deep Dive 20.3.1. Netscout 20.3.1.1. Overview 20.3.1.2. Product Portfolio 20.3.1.3. Sales Footprint 20.3.1.4. Strategy Overview 20.3.2. Akamai Technology 20.3.2.1. Overview 20.3.2.2. Product Portfolio 20.3.2.3. Sales Footprint 20.3.2.4. Strategy Overview 20.3.3. Huawei Technology 20.3.3.1. Overview 20.3.3.2. Product Portfolio 20.3.3.3. Sales Footprint 20.3.3.4. Strategy Overview 20.3.4. Fortinet 20.3.4.1. Overview 20.3.4.2. Product Portfolio 20.3.4.3. Sales Footprint 20.3.4.4. Strategy Overview 20.3.5. Link11 20.3.5.1. Overview 20.3.5.2. Product Portfolio 20.3.5.3. Sales Footprint 20.3.5.4. Strategy Overview 20.3.6. Imperva 20.3.6.1. Overview 20.3.6.2. Product Portfolio 20.3.6.3. Sales Footprint 20.3.6.4. Strategy Overview 20.3.7. Cloudflare 20.3.7.1. Overview 20.3.7.2. Product Portfolio 20.3.7.3. Sales Footprint 20.3.7.4. Strategy Overview 20.3.8. BT 20.3.8.1. Overview 20.3.8.2. Product Portfolio 20.3.8.3. Sales Footprint 20.3.8.4. Strategy Overview 20.3.9. A10 Networks 20.3.9.1. Overview 20.3.9.2. Product Portfolio 20.3.9.3. Sales Footprint 20.3.9.4. Strategy Overview 21. Assumptions and Acronyms Used 22. Research Methodology
Table 1: Global Market Value (US$ Million), By Organization Size, 2015 to 2021 Table 2: Global Market Value (US$ Million), By Organization Size, 2022 to 2032 Table 3: Global Market Value (US$ Million), By Vertical, 2015 to 2021 Table 4: Global Market Value (US$ Million), By Vertical, 2022 to 2032 Table 5: Global Market Value (US$ Million), By Deployment Mode, 2015 to 2021 Table 6: Global Market Value (US$ Million), By Deployment Mode, 2022 to 2032 Table 7: Global Market Value (US$ Million), By Application Area, 2015 to 2021 Table 8: Global Market Value (US$ Million), By Application Area, 2022 to 2032 Table 9: Global Market, By Region, 2015 to 2021 Table 10: Global Market, By Region, 2022 to 2032 Table 11: North America Market Value (US$ Million), By Organization Size, 2015 to 2021 Table 12: North America Market Value (US$ Million), By Organization Size, 2022 to 2032 Table 13: North America Market Value (US$ Million), By Vertical, 2015 to 2021 Table 14: North America Market Value (US$ Million), By Vertical, 2022 to 2032 Table 15: North America Market Value (US$ Million), By Deployment Mode, 2015 to 2021 Table 16: North America Market Value (US$ Million), By Deployment Mode, 2022 to 2032 Table 17: North America Market Value (US$ Million), By Application Area, 2015 to 2021 Table 18: North America Market Value (US$ Million), By Application Area, 2022 to 2032 Table 19: North America Market, By Country, 2015 to 2021 Table 20: North America Market, By Country, 2022 to 2032 Table 21: Latin America Market Value (US$ Million), By Organization Size, 2015 to 2021 Table 22: Latin America Market Value (US$ Million), By Organization Size, 2022 to 2032 Table 23: Latin America Market Value (US$ Million), By Vertical, 2015 to 2021 Table 24: Latin America Market Value (US$ Million), By Vertical, 2022 to 2032 Table 25: Latin America Market Value (US$ Million), By Deployment Mode, 2015 to 2021 Table 26: Latin America Market Value (US$ Million), By Deployment Mode, 2022 to 2032 Table 27: Latin America Market Value (US$ Million), By Application Area, 2015 to 2021 Table 28: Latin America Market Value (US$ Million), By Application Area, 2022 to 2032 Table 29: Latin America Market, By Country, 2015 to 2021 Table 30: Latin America Market, By Country, 2022 to 2032 Table 31: Europe Market Value (US$ Million), By Organization Size, 2015 to 2021 Table 32: Europe Market Value (US$ Million), By Organization Size, 2022 to 2032 Table 33: Europe Market Value (US$ Million), By Vertical, 2015 to 2021 Table 34: Europe Market Value (US$ Million), By Vertical, 2022 to 2032 Table 35: Europe Market Value (US$ Million), By Deployment Mode, 2015 to 2021 Table 36: Europe Market Value (US$ Million), By Deployment Mode, 2022 to 2032 Table 37: Europe Market Value (US$ Million), By Application Area, 2015 to 2021 Table 38: Europe Market Value (US$ Million), By Application Area, 2022 to 2032 Table 39: Europe Market, By Country, 2015 to 2021 Table 40: Europe Market, By Country, 2022 to 2032 Table 41: Asia Pacific Market Value (US$ Million), By Organization Size, 2015 to 2021 Table 42: Asia Pacific Market Value (US$ Million), By Organization Size, 2022 to 2032 Table 43: Asia Pacific Market Value (US$ Million), By Vertical, 2015 to 2021 Table 44: Asia Pacific Market Value (US$ Million), By Vertical, 2022 to 2032 Table 45: Asia Pacific Market Value (US$ Million), By Deployment Mode, 2015 to 2021 Table 46: Asia Pacific Market Value (US$ Million), By Deployment Mode, 2022 to 2032 Table 47: Asia Pacific Market Value (US$ Million), By Application Area, 2015 to 2021 Table 48: Asia Pacific Market Value (US$ Million), By Application Area, 2022 to 2032 Table 49: Asia Pacific Market, By Country, 2015 to 2021 Table 50: Asia Pacific Market, By Country, 2022 to 2032 Table 51: MEA Market Value (US$ Million), By Organization Size, 2015 to 2021 Table 52: MEA Market Value (US$ Million), By Organization Size, 2022 to 2032 Table 53: MEA Market Value (US$ Million), By Vertical, 2015 to 2021 Table 54: MEA Market Value (US$ Million), By Vertical, 2022 to 2032 Table 55: MEA Market Value (US$ Million), By Deployment Mode, 2015 to 2021 Table 56: MEA Market Value (US$ Million), By Deployment Mode, 2022 to 2032 Table 57: MEA Market Value (US$ Million), By Application Area, 2015 to 2021 Table 58: MEA Market Value (US$ Million), By Application Area, 2022 to 2032 Table 59: MEA Market, By Country, 2015 to 2021 Table 60: MEA Market, By Country, 2022 to 2032
Figure 1: Global Market Value (US$ Million) and Year-on-Year Growth, 2015 to 2032 Figure 2: Global Market Absolute $ Historical Gain (2015 to 2021) and Opportunity (2022 to 2032), US$ Million Figure 3: Global Market Share, By Component, 2022 & 2032 Figure 4: Global Market Y-o-Y Growth Projections, By Component - 2022 to 2032 Figure 5: Global Market Attractiveness Index, By Component - 2022 to 2032 Figure 6: Global Market Share, By Vertical, 2022 & 2032 Figure 7: Global Market Y-o-Y Growth Projections, By Vertical - 2022 to 2032 Figure 8: Global Market Attractiveness Index, By Vertical - 2022 to 2032 Figure 9: Global Market Share, By Application Area, 2022 & 2032 Figure 10: Global Market Y-o-Y Growth Projections, By Application Area - 2022 to 2032 Figure 11: Global Market Attractiveness Index, By Application Area - 2022 to 2032 Figure 12: Global Market Share, By Deployment Mode, 2022 & 2032 Figure 13: Global Market Y-o-Y Growth Projections, By Deployment Mode - 2022 to 2032 Figure 14: Global Market Attractiveness Index, By Deployment Mode - 2022 to 2032 Figure 15: Global Market Share, By Region, 2022 & 2032 Figure 16: Global Market Y-o-Y Growth Projections, By Region - 2022 to 2032 Figure 17: Global Market Attractiveness Index, By Region - 2022 to 2032 Figure 18: North America Market Value (US$ Million) and Year-on-Year Growth, 2015 to 2032 Figure 19: North America Market Absolute $ Opportunity Historical (2015 to 2021) and Forecast Period (2022 to 2032), US$ Million Figure 20: North America Market Share, By Component, 2022 & 2032 Figure 21: North America Market Y-o-Y Growth Projections, By Component - 2022 to 2032 Figure 22: North America Market Attractiveness Index, By Component - 2022 to 2032 Figure 23: North America Market Share, By Vertical, 2022 & 2032 Figure 24: North America Market Y-o-Y Growth Projections, By Vertical - 2022 to 2032 Figure 25: North America Market Attractiveness Index, By Vertical - 2022 to 2032 Figure 26: North America Market Share, By Application Area, 2022 & 2032 Figure 27: North America Market Y-o-Y Growth Projections, By Application Area - 2022 to 2032 Figure 28: North America Market Attractiveness Index, By Application Area - 2022 to 2032 Figure 29: North America Market Share, By Deployment Mode, 2022 & 2032 Figure 30: North America Market Y-o-Y Growth Projections, By Deployment Mode - 2022 to 2032 Figure 31: North America Market Attractiveness Index, By Deployment Mode - 2022 to 2032 Figure 32: North America Market Share, By Country, 2022 & 2032 Figure 33: North America Market Y-o-Y Growth Projections, By Country - 2022 to 2032 Figure 34: North America Market Attractiveness Index, By Country - 2022 to 2032 Figure 35: Latin America Market Value (US$ Million) and Year-on-Year Growth, 2015 to 2032 Figure 36: Latin America Market Absolute $ Opportunity Historical (2015 to 2021) and Forecast Period (2022 to 2032), US$ Million Figure 37: Latin America Market Share, By Component, 2022 & 2032 Figure 38: Latin America Market Y-o-Y Growth Projections, By Component - 2022 to 2032 Figure 39: Latin America Market Attractiveness Index, By Component - 2022 to 2032 Figure 40: Latin America Market Share, By Vertical, 2022 & 2032 Figure 41: Latin America Market Y-o-Y Growth Projections, By Vertical - 2022 to 2032 Figure 42: Latin America Market Attractiveness Index, By Vertical - 2022 to 2032 Figure 43: Latin America Market Share, By Application Area, 2022 & 2032 Figure 44: Latin America Market Y-o-Y Growth Projections, By Application Area - 2022 to 2032 Figure 45: Latin America Market Attractiveness Index, By Application Area - 2022 to 2032 Figure 46: Latin America Market Share, By Deployment Mode, 2022 & 2032 Figure 47: Latin America Market Y-o-Y Growth Projections, By Deployment Mode - 2022 to 2032 Figure 48: Latin America Market Attractiveness Index, By Deployment Mode - 2022 to 2032 Figure 49: Latin America Market Share, By Country, 2022 & 2032 Figure 50: Latin America Market Y-o-Y Growth Projections, By Country - 2022 to 2032 Figure 51: Latin America Market Attractiveness Index, By Country - 2022 to 2032 Figure 52: Europe Market Value (US$ Million) and Year-on-Year Growth, 2015 to 2032 Figure 53: Europe Market Absolute $ Opportunity Historical (2015 to 2021) and Forecast Period (2022 to 2032), US$ Million Figure 54: Europe Market Share, By Component, 2022 & 2032 Figure 55: Europe Market Y-o-Y Growth Projections, By Component - 2022 to 2032 Figure 56: Europe Market Attractiveness Index, By Component - 2022 to 2032 Figure 57: Europe Market Share, By Vertical, 2022 & 2032 Figure 58: Europe Market Y-o-Y Growth Projections, By Vertical - 2022 to 2032 Figure 59: Europe Market Attractiveness Index, By Vertical - 2022 to 2032 Figure 60: Europe Market Share, By Application Area, 2022 & 2032 Figure 61: Europe Market Y-o-Y Growth Projections, By Application Area - 2022 to 2032 Figure 62: Europe Market Attractiveness Index, By Application Area - 2022 to 2032 Figure 63: Europe Market Share, By Deployment Mode, 2022 & 2032 Figure 64: Europe Market Y-o-Y Growth Projections, By Deployment Mode - 2022 to 2032 Figure 65: Europe Market Attractiveness Index, By Deployment Mode - 2022 to 2032 Figure 66: Europe Market Share, By Country, 2022 & 2032 Figure 67: Europe Market Y-o-Y Growth Projections, By Country - 2022 to 2032 Figure 68: Europe Market Attractiveness Index, By Country - 2022 to 2032 Figure 69: MEA Market Value (US$ Million) and Year-on-Year Growth, 2015 to 2032 Figure 70: MEA Market Absolute $ Opportunity Historical (2015 to 2021) and Forecast Period (2022 to 2032), US$ Million Figure 71: MEA Market Share, By Component, 2022 & 2032 Figure 72: MEA Market Y-o-Y Growth Projections, By Component - 2022 to 2032 Figure 73: MEA Market Attractiveness Index, By Component - 2022 to 2032 Figure 74: MEA Market Share, By Vertical, 2022 & 2032 Figure 75: MEA Market Y-o-Y Growth Projections, By Vertical - 2022 to 2032 Figure 76: MEA Market Attractiveness Index, By Vertical - 2022 to 2032 Figure 77: MEA Market Share, By Application Area, 2022 & 2032 Figure 78: MEA Market Y-o-Y Growth Projections, By Application Area - 2022 to 2032 Figure 79: MEA Market Attractiveness Index, By Application Area - 2022 to 2032 Figure 80: MEA Market Share, By Deployment Mode, 2022 & 2032 Figure 81: MEA Market Y-o-Y Growth Projections, By Deployment Mode - 2022 to 2032 Figure 82: MEA Market Attractiveness Index, By Deployment Mode - 2022 to 2032 Figure 83: MEA Market Share, By Country, 2022 & 2032 Figure 84: MEA Market Y-o-Y Growth Projections, By Country - 2022 to 2032 Figure 85: MEA Market Attractiveness Index, By Country - 2022 to 2032 Figure 86: Asia Pacific Market Value (US$ Million) and Year-on-Year Growth, 2015 to 2032 Figure 87: Asia Pacific Market Absolute $ Opportunity Historical (2015 to 2021) and Forecast Period (2022 to 2032), US$ Million Figure 88: Asia Pacific Market Share, By Component, 2022 & 2032 Figure 89: Asia Pacific Market Y-o-Y Growth Projections, By Component - 2022 to 2032 Figure 90: Asia Pacific Market Attractiveness Index, By Component - 2022 to 2032 Figure 91: Asia Pacific Market Share, By Vertical, 2022 & 2032 Figure 92: Asia Pacific Market Y-o-Y Growth Projections, By Vertical - 2022 to 2032 Figure 93: Asia Pacific Market Attractiveness Index, By Vertical - 2022 to 2032 Figure 94: Asia Pacific Market Share, By Application Area, 2022 & 2032 Figure 95: Asia Pacific Market Y-o-Y Growth Projections, By Application Area - 2022 to 2032 Figure 96: Asia Pacific Market Attractiveness Index, By Application Area - 2022 to 2032 Figure 97: Asia Pacific Market Share, By Deployment Mode, 2022 & 2032 Figure 98: Asia Pacific Market Y-o-Y Growth Projections, By Deployment Mode - 2022 to 2032 Figure 99: Asia Pacific Market Attractiveness Index, By Deployment Mode - 2022 to 2032 Figure 100: Asia Pacific Market Share, By Country, 2022 & 2032 Figure 101: Asia Pacific Market Y-o-Y Growth Projections, By Country - 2022 to 2032 Figure 102: Asia Pacific Market Attractiveness Index, By Country - 2022 to 2032
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