Mobile Runtime Application Self Protection Market Size, Type Analysis, Application Analysis, End-Use, Industry Analysis, Regional Outlook, Competitive Strategies And Forecasts, 2023-2032

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Market Snapshot

CAGR:9.48
2023
2032

Source: Market Expertz

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Study Period 2019-2032
Base Year 2023
Forcast Year 2023-2032
CAGR 9.48
Information & Technology-companies
Information & Technology-Snapshot

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Report Overview

Mobile Runtime Application Self-Protection (RASP) Market Analysis Report 2023-2032: The Mobile Runtime Application Self-Protection (RASP) Market is poised to experience substantial growth, with an anticipated Compound Annual Growth Rate (CAGR) of 7.92% between 2022 and 2032. The market size is expected to expand by USD 1,986.75 million. This growth is driven by various factors, including the escalating usage of mobile applications, rising cybersecurity concerns, and the increasing adoption of RASP solutions to safeguard mobile applications from runtime attacks. Mobile Runtime Application Self-Protection (RASP) technology refers to a proactive security approach that embeds security defenses directly into mobile applications to detect and mitigate threats in real-time during runtime. It offers an added layer of protection by monitoring application behavior and taking preventive actions to counteract attacks, enhancing the security posture of mobile apps and the data they handle. Mobile Runtime Application Self-Protection (RASP) Market Overview:

Drivers:

A pivotal factor propelling the Mobile RASP market growth is the soaring usage of mobile applications across diverse industries. As businesses continue to digitize their processes and engage customers through mobile apps, the potential attack surface for cybercriminals widens. This surge in mobile app adoption intensifies the need for robust security measures, driving the demand for Mobile RASP solutions that can dynamically identify and mitigate threats while applications are running. Furthermore, the increasing complexity of cyber threats and the evolving tactics of hackers necessitate advanced security mechanisms. RASP technology, by offering real-time threat detection and response, addresses these challenges effectively. This proactive approach to securing mobile applications aligns with the evolving threat landscape, making Mobile RASP solutions a valuable asset for organizations seeking to fortify their applications against attacks.

Trends:

The integration of Artificial Intelligence (AI) and Machine Learning (ML) in Mobile RASP solutions is a prominent trend shaping the market's growth trajectory. AI-powered RASP solutions can learn from historical attack data and application behavior to enhance threat detection accuracy and refine response mechanisms. This integration empowers RASP solutions to adapt to new attack vectors and recognize anomalies more effectively, providing a higher level of security for mobile applications. Furthermore, the surge in Bring Your Own Device (BYOD) and remote work practices underscores the importance of securing mobile apps and their sensitive data. Organizations are increasingly prioritizing mobile application security to ensure data protection, compliance, and secure access to corporate resources. This trend is driving the adoption of Mobile RASP solutions as an integral component of the cybersecurity strategy for mobile-centric workplaces.

Restraints:

Despite the promising growth prospects, challenges persist in the Mobile RASP market. One of the key hurdles is the potential performance overhead introduced by RASP solutions. The continuous monitoring and analysis of application behavior during runtime can impact the app's performance, leading to potential latency issues and user experience degradation. Striking the right balance between security and performance remains a challenge for organizations implementing Mobile RASP solutions. Moreover, the diverse mobile application landscape—spanning various platforms, frameworks, and technologies—adds complexity to the integration and customization of RASP solutions. Adapting RASP technology to different application architectures and ensuring compatibility across the mobile ecosystem presents technical challenges that need to be addressed for seamless deployment. Mobile Runtime Application Self-Protection (RASP) Market Segmentation by Application: The segment for Financial Services and Banking applications is projected to exhibit significant growth throughout the forecast period. The financial sector heavily relies on mobile applications for transactions, account management, and customer interactions. However, these applications are prime targets for cyberattacks due to the sensitive financial data they handle. The integration of Mobile RASP solutions within financial apps helps safeguard transactions and protect user data from runtime threats, bolstering user trust and enhancing the industry's security posture. Mobile Runtime Application Self-Protection (RASP) Market Segmentation by Type: The Dynamic RASP segment is set to experience robust growth in response to the evolving threat landscape. Dynamic RASP solutions provide real-time detection and protection capabilities, enabling swift responses to emerging threats. As the sophistication of attacks continues to increase, organizations are inclined to adopt Dynamic RASP solutions to counteract the dynamic and evolving nature of runtime attacks effectively.

Regional Overview:


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North America is poised to hold a significant share in the Mobile RASP market, contributing approximately 38% to the global growth during the forecast period. The region's dominance is attributed to its technology-driven economies, high mobile app adoption rates, and growing cybersecurity concerns. The prevalence of mobile-centric business models and the widespread use of smartphones for various activities create a fertile ground for the adoption of Mobile RASP solutions in North America. The region boasts a mature cybersecurity landscape with well-established regulations and compliance frameworks that mandate robust security measures for mobile applications. This regulatory environment is expected to drive the adoption of Mobile RASP solutions among industries dealing with sensitive customer data, such as healthcare and financial services, further fueling market growth. In 2020, the COVID-19 pandemic prompted a surge in remote work and digital interactions, accentuating the need for secure mobile applications. Organizations across North America accelerated their digital transformation efforts to adapt to the new normal, contributing to the demand for Mobile RASP solutions. Mobile Runtime Application Self-Protection (RASP) Market Customer Landscape: The market report encompasses the customer adoption lifecycle, from early adopters to mainstream users, offering insights into the growth trajectory of Mobile RASP solutions. It delves into adoption patterns across different regions and analyzes key factors influencing customer purchasing decisions, including price sensitivity and key purchase criteria. Major Mobile Runtime Application Self-Protection (RASP) Market Companies: Companies in the Mobile RASP market are pursuing various strategies, such as partnerships, acquisitions, product launches, and global expansions, to strengthen their market presence. • AppDome Inc. • Arxan Technologies Inc. • Contrast Security Inc. • Digital.ai • GuardSquare NV • IBM Corporation • Micro Focus International PLC • NowSecure Inc. • Pradeo Security Systems SAS • Rapid7 Inc. • Synopsys Inc. • Trend Micro Incorporated • Vasco Data Security International Inc.

Segment Overview:

The Mobile RASP market report provides revenue forecasts at the global, regional, and country levels, offering insights into trends and growth opportunities from 2019 to 2032. • Application Outlook (USD Million, 2019 - 2032) o Financial Services and Banking o Retail and E-commerce o Healthcare o Telecom and IT o Others • Geography Outlook (USD Million, 2019 - 2032) o North America § The U.S. § Canada o Europe § U.K. § Germany § France § Rest of Europe o APAC § China § India o South America § Brazil § Argentina o Middle East & Africa § Saudi Arabia § South Africa § Rest of the Middle East & Africa

TABLE OF CONTENTS: GLOBAL Mobile Runtime Application Self-Protection MARKET

Chapter 1. MARKET SYNOPSIS

1.1. Market Definition

1.2. Research Scope & Premise

1.3. Methodology

1.4. Market Estimation Technique

Chapter 2. EXECUTIVE SUMMARY

2.1. Summary Snapshot, 2016 – 2027

Chapter 3. INDICATIVE METRICS

3.1. Macro Indicators

Chapter 4. Mobile Runtime Application Self-Protection MARKET SEGMENTATION & IMPACT ANALYSIS

4.1. Mobile Runtime Application Self-Protection Segmentation Analysis

4.2. Industrial Outlook

4.3. Price Trend Analysis

4.4. Regulatory Framework

4.5. Porter’s Five Forces Analysis

    4.5.1. Power Of Suppliers

    4.5.2. Power Of Buyers

    4.5.3. Threat Of Substitutes

    4.5.4. Threat Of New Entrants

    4.5.5. Competitive Rivalry

Chapter 5. Mobile Runtime Application Self-Protection MARKET BY Deployment Model INSIGHTS & TRENDS

5.1. Segment 1 Dynamics & Market Share, 2019 & 2027

5.2. On premises

    5.2.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    5.2.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

5.3. Cloud-based

    5.3.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    5.3.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

Chapter 6. Mobile Runtime Application Self-Protection MARKET BY Organization Size INSIGHTS & TRENDS

6.1. Segment 2 Dynamics & Market Share, 2019 & 2027

6.2. Large Organizations

    6.2.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    6.2.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

6.3. SMEs

    6.3.1. Market Estimates And Forecast, 2016 – 2027 (USD Million)

    6.3.2. Market Estimates And Forecast, By Region, 2016 – 2027 (USD Million)

Chapter 7. Mobile Runtime Application Self-Protection MARKET REGIONAL OUTLOOK

7.1. Mobile Runtime Application Self-Protection Market Share By Region, 2019 & 2027

7.2. NORTH AMERICA

    7.2.1. North America Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.2.2. North America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.2.3. North America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.2.4. North America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.2.5. U.S.

    7.2.5.1. U.S. Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.2.5.2. U.S. Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.2.5.3. U.S. Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.2.5.4. U.S. Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.2.6. CANADA

    7.2.6.1. Canada Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.2.6.2. Canada Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.2.6.3. Canada Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.2.6.4. Canada Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3. EUROPE

    7.3.1. Europe Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.2. Europe Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.3. Europe Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.4. Europe Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3.5. GERMANY

    7.3.5.1. Germany Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.5.2. Germany Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.5.3. Germany Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.5.4. Germany Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3.6. FRANCE

    7.3.6.1. France Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.6.2. France Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.6.3. France Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.6.4. France Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.3.7. U.K.

    7.3.7.1. U.K. Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.3.7.2. U.K. Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.3.7.3. U.K. Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.3.7.4. U.K. Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4. ASIA-PACIFIC

    7.4.1. Asia Pacific Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.4.2. Asia Pacific Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.4.3. Asia Pacific Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.4.4. Asia Pacific Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

 7.4.5. CHINA

     7.4.5.1. China Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

     7.4.5.2. China Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

     7.4.5.3. China Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

     7.4.5.4. China Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4.6. INDIA

     7.4.6.1. India Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

     7.4.6.2. India Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

     7.4.6.3. India Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

     7.4.6.4. India Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4.7. JAPAN

     7.4.7.1. Japan Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

     7.4.7.2. Japan Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.4.7.3. Japan Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.4.7.4. Japan Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.4.8. AUSTRALIA

    7.4.8.1. Australia Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.4.8.2. Australia Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

     7.4.8.3. Australia Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.4.8.4. Australia Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.5. MIDDLE EAST AND AFRICA (MEA)

    7.5.1. Mea Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.5.2. Mea Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.5.3. Mea Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.5.4. Mea Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

7.6. LATIN AMERICA

     7.6.1. Latin America Mobile Runtime Application Self-Protection Market Estimates And Forecast, 2016 – 2027, (USD Million)

    7.6.2. Latin America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 1, 2016 –2027, (USD Million)

    7.6.3. Latin America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 2, 2016 –2027, (USD Million)

    7.6.4. Latin America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Production Process, 2016 –2027, (USD Million)

    7.6.5. Latin America Mobile Runtime Application Self-Protection Market Estimates And Forecast By Segment 3, 2016 –2027, (USD Million)

Chapter 8. COMPETITIVE LANDSCAPE

8.1. Market Share By Manufacturers

8.2. Strategic Benchmarking

    8.2.1. New Product Launches

    8.2.2. Investment & Expansion

    8.2.3. Acquisitions

    8.2.4. Partnerships, Agreement, Mergers, Joint-Ventures

8.3. Vendor Landscape

     8.3.1. North American Suppliers

     8.3.2. European Suppliers

     8.3.3. Asia-Pacific Suppliers

     8.3.4. Rest Of The World Suppliers

Chapter 9. COMPANY PROFILES

9.1. Pradeo

    9.1.1. Company Overview

    9.1.2. Financial Performance

    9.1.3. Product Insights

    9.1.4. Strategic Initiatives

9.2. Micro Focus

    9.2.1. Company Overview

    9.2.2. Financial Performance

    9.2.3. Product Insights

    9.2.4. Strategic Initiatives

9.3. Vasco Data Security International Inc. (OneSpan Inc.)

    9.3.1. Company Overview

    9.3.2. Financial Performance

    9.3.3. Product Insights

    9.3.4. Strategic Initiatives

9.4. CA Veracode

    9.4.1. Company Overview

    9.4.2. Financial Performance

    9.4.3. Product Insights

    9.4.4. Strategic Initiatives

9.5. IMMUNIO

    9.5.1. Company Overview

    9.5.2. Financial Performance

    9.5.3. Product Insights

    9.5.4. Strategic Initiatives

9.6. Arxan

    9.6.1. Company Overview

    9.6.2. Financial Performance

    9.6.3. Product Insights

    9.6.4. Strategic Initiatives

9.7. Signal Science

    9.7.1. Company Overview

    9.7.2. Financial Performance

    9.7.3. Product Insights

    9.7.4. Strategic Initiatives

9.8. Promon

    9.8.1. Company Overview

    9.8.2. Financial Performance

    9.8.3. Product Insights

    9.8.4. Strategic Initiatives

9.9. Prevoty, Inc

    9.9.1. Company Overview

    9.9.2. Financial Performance

    9.9.3. Product Insights

    9.9.4. Strategic Initiatives

9.10. Waratek

    9.10.1. Company Overview

    9.10.2. Financial Performance

    9.10.3. Product Insights

    9.10.4. Strategic Initiatives

RESEARCH METHODOLOGY

A research methodology is a systematic approach for assessing or conducting a market study. Researchers tend to draw on a variety of both qualitative and quantitative study methods, inclusive of investigations, survey, secondary data and market observation.

Such plans can focus on classifying the products offered by leading market players or simply use statistical models to interpret observations or test hypotheses. While some methods aim for a detailed description of the factors behind an observation, others present the context of the current market scenario.

Now let’s take a closer look at the research methods here.

Secondary Research Model

Extensive data is obtained and cumulated on a substantial basis during the inception phase of the research process. The data accumulated is consistently filtered through validation from the in-house database, paid sources as well reputable industry magazines. A robust research study requires an understanding of the overall value chain. Annual reports and financials of industry players are studied thoroughly to have a comprehensive idea of the market taxonomy.

Primary Insights

Post conglomeration of the data obtained through secondary research; a validation process is initiated to verify the numbers or figures. This process is usually performed by having a detailed discussion with the industry experts.

However, we do not restrict our primary interviews only to the industry leaders. Our team covers the entire value chain while verifying the data. A significant number of raw material suppliers, local manufacturers, distributors, and stakeholders are interviewed to make our findings authentic. The current trends which include the drivers, restraints, and opportunities are also derived through the primary research process.

Market Estimation

The market estimation is conducted by analyzing the data collected through both secondary and primary research. This process involves market breakdown, bottom-up and top- down approach.

Moreover, while forecasting the market a comprehensive statistical time series model is designed for each market. Macroeconomic indicators are considered to understand the current trends of the market. Each data point is verified by the process of data triangulation method to arrive at the final market estimates.

Final Presentation

The penultimate process results in a holistic research report. The study equips key industry players to undertake significant strategic decisions through the findings. The report encompasses detailed market information. Graphical representations of the current market trends are also made available in order to make the study highly comprehensible for the reader.

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