Biometric-As-A-Service Market Analysis and Global Forecast 2023-2033

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Biometric-As-A-Service Market Research Report: Information By modality (Unimodal, Multi-Modal), By Application (BFSI, Retail and E-commerce, Healthcare, Government & Defense, IT & Telecom, Education), and by Region — Forecast till 2033

Report Published on: November 6, 2024
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$ 5,520.00(Approx. € 4,886.30)
$ 1,390.00(Approx. € 1,230.43)
Report Code: EBI88862 Category:
Description

Biometric-As-A-Service Market Overview

The Biometric-As-A-Service Market Size is expected to reach USD 607.2 Billion by 2033. The Biometric-As-A-Service Market industry size accounted for USD 397.3Billion in 2023 and is expected to expand at a compound annual growth rate (CAGR) of 4.41% from 2023 to 2033. Biometric-as-a-Service (BaaS) Market refers to a segment of the technology and service industry that provides biometric authentication and identification solutions to businesses and organizations on a subscription or service-based model. Biometrics involves the measurement and statistical analysis of an individual’s unique physical and behavioral characteristics, such as fingerprints, facial recognition, iris scans, and voice patterns, for the purpose of authentication and identification.

In the Biometric-as-a-Service market, service providers offer cloud-based biometric solutions to clients, allowing them to integrate biometric authentication and identification capabilities into their applications, systems, or devices without having to develop and maintain the underlying technology themselves. This model offers several advantages, including cost savings, scalability, and ease of implementation for organizations that wish to leverage biometrics for security, access control, or identity verification.

The Biometric-as-a-Service market has gained prominence as businesses increasingly seek more robust and convenient methods for identity verification and access control. This approach allows organizations to leverage the benefits of biometrics without the need for in-house expertise and infrastructure, making it an attractive solution in today’s digital and security-conscious landscape.

Global Biometric-As-A-Service Market Synopsis

COVID-19 Impact Analysis

The COVID-19 pandemic has had a significant impact on the Biometric-as-a-Service (BaaS) market. With the increased use of biometrics for health-related monitoring, concerns about data privacy and security grew. BaaS providers had to address these concerns to gain trust among users and ensure compliance with data protection regulations. The pandemic accelerated the adoption of remote work and the need for secure access control. Biometric authentication, delivered through BaaS, helped organizations enhance their remote access and identity verification capabilities. The economic impact of the pandemic influenced budget constraints for many organizations, which affected their decisions to invest in BaaS solutions. Cost-effectiveness and flexible pricing models became more important in this context. The pandemic accelerated the digital transformation process for many industries. As a result, some of the changes in biometric adoption and BaaS may continue long-term as organizations recognize the benefits of these technologies beyond the pandemic.

Biometric-As-A-Service Market Dynamics

The major factors that have impacted the growth of Biometric-As-A-Service Market are as follows:

Drivers:

Ø  Security Concerns

Increasing concerns about data breaches, identity theft, and cyber threats have driven the demand for more secure and robust authentication methods. Biometric authentication is seen as a highly secure way to verify an individual’s identity. The ongoing digital transformation of businesses and government agencies has created a need for efficient and secure identity verification methods. BaaS offers a convenient way to implement biometrics within digital systems and applications. The rise of remote work and the need for secure remote access to systems and data have boosted the demand for biometric solutions. BaaS provides a flexible way to enable secure remote authentication. Biometric authentication methods, such as fingerprint or facial recognition, offer a convenient and user-friendly experience. This can lead to increased user adoption and satisfaction. Biometrics can be highly effective in preventing fraud, whether it’s in the financial sector, e-commerce, or identity theft prevention. BaaS provides organizations with the tools to enhance their fraud prevention efforts.

Restraint:

  • Perception of Accuracy and Reliability

BaaS providers and their clients must ensure the security of biometric data, which is highly sensitive. Data breaches and vulnerabilities could result in significant risks, making organizations cautious about implementing biometrics. While biometrics can be highly accurate, there are situations where they may fail, such as in low-light conditions for facial recognition or variations in fingerprint scans. These limitations can affect the reliability of BaaS solutions. The absence of standardized biometric formats and protocols can hinder interoperability between different BaaS providers and systems, making it difficult for organizations to switch or combine services. BaaS providers must continually invest in research and development to keep up with the evolving landscape of biometric technologies, adding to their operating costs and challenges.

Opportunity:

⮚      Growing demand for Healthcare and Telemedicine

The healthcare sector offers significant opportunities for biometric authentication in patient identification and remote healthcare delivery. BaaS can facilitate secure access to medical records and telehealth platforms. The financial industry can leverage BaaS for secure customer onboarding, transaction verification, and fraud prevention. Biometrics can enhance the security of mobile banking and payment applications. BaaS can be used in government services for secure e-government applications, border control, identity verification, and national ID systems. These applications are crucial for enhancing security and efficiency. BaaS can enhance the customer experience in retail by providing secure and convenient payment options, as well as access control to restricted areas or loyalty programs. BaaS providers can offer specialized biometric solutions tailored to specific industries and use cases, catering to unique requirements and niches.

Biometric-As-A-Service Market Segment Overview

By Modality

Based on Modality, the market is segmented based on Unimodal and Multi-Modal. Unimodal is anticipated to become the fastest-growing market. Unimodal solutions are easy to deploy and less complex than multimodal technologies. However, unimodal technologies are more vulnerable to threats, such as spoofing, and are not as reliable as multimodal systems.

By Application

Based on Application, the market has been divided into BFSI, Retail and E-commerce, Healthcare, Government & Defense, IT & Telecom and Education. BFSI is anticipated to become the fastest-growing market in the forecast duration. With banking service providers investing in mobile app services to operate, the pressure to provide safe banking services through mobile apps persists. A majority of the banking apps and wallets are using advanced authentication ways, like fingerprint and two-factor authentication, facial and voice recognition.

Global Biometric-As-A-Service Market Regional Analysis

Based on region, the global Biometric-As-A-Service Market has been divided into North America, Europe, Asia-Pacific, the Middle East & Africa, and Latin America. North America is projected to dominate the use of the Biometric-As-A-Service Market followed by the Asia-Pacific and Europe regions.

North America Market

North America holds a dominant position in the Biometric-As-A-Service Market. North America, particularly the United States, is a mature and highly competitive market for BaaS. The presence of numerous BaaS providers and extensive adoption of biometrics in various sectors, including finance and healthcare, drives the market. The region has established data protection and privacy regulations, such as GDPR in Europe and HIPAA in the United States, which impact BaaS adoption. Stricter data privacy regulations may encourage organizations to seek BaaS solutions that comply with these standards. The financial services and healthcare sectors are major users of BaaS in North America, while applications in retail, government, and technology are also on the rise.

Asia-Pacific Market

The Asia-Pacific region has indeed emerged as the fastest-growing market for the Biometric-As-A-Service Market industry. The Asia-Pacific region is witnessing significant growth in the BaaS market, driven by the adoption of biometrics in various countries for identity verification, financial services, and government initiatives. High mobile device penetration and a tech-savvy population have boosted mobile biometric authentication, particularly in countries like India and China. BaaS is used to promote financial inclusion in countries with large unbanked populations, with applications in mobile payments, digital banking, and secure access to government services.

Competitive Landscape

The global Biometric-As-A-Service Market is highly competitive, with numerous players offering a wide range of software solutions. The competitive landscape is characterized by the presence of established companies, as well as emerging startups and niche players. To increase their market position and attract a wide consumer base, the businesses are employing various strategies, such as product launches, and strategic alliances.

Prominent Players:

  • Accenture
  • Aware Inc.
  • BioID
  • Fujitsu Limited
  • Imageware Systems Incorporated
  • IDEMIA France
  • Iritech Inc.
  • M2SYS Inc.
  • NEC Corporation
  • Thales Group.

Key Development

In January 2023 Ingenico, a French PayTech company, has partnered with Fujitsu Frontech North America to create a biometric payment system based on palm vein identification. The advancement allows companies to improve the checkout experience while reducing fraud threats. The system, built on Ingenico’s AXIUM platform, allows contactless payments, minimizes lines, and changes in-store commerce.

Scope of the Report

Global Biometric-As-A-Service Market, by Modality

  • Unimodal
  • Multi-Modal

Global Biometric-As-A-Service Market, by Application

  • BFSI
  • Retail and E-commerce
  • Healthcare
  • Government & Defense
  • IT & Telecom
  • Education

Global Biometric-As-A-Service Market, by Region

  • North America
    • US
    • Canada
    • Mexico
  • Europe
    • UK
    • Germany
    • France
    • Italy
    • Spain
    • Benelux
    • Nordic
    • Rest of Europe
  • Asia Pacific
    • China
    • Japan
    • South Korea
    • Indonesia
    • Austalia
    • Malaysia
    • India
    • Rest of Asia Pacific
  • South America
    • Brazil
    • Argentina
    • Rest of SouthAmerica
  • Middle East &Africa
    • Saudi Arabia
    • UAE
    • Egypt
    • SouthAfrica
    • Rest of Middle East & Africa

 

Parameters Indicators
Market Size 2033: $USD607.2Billion
CAGR 4.41% CAGR (2023-2033)
Base year 2022
Forecast Period 2023-2033
Historical Data 2021
Report Coverage Revenue Forecast, Competitive Landscape, Growth Factors, and Trends
Key Segmentations Modality, Application
Geographies Covered North America, Europe, Asia-Pacific, Latin America, Middle East, Africa
Key Vendors Accenture, Aware Inc., BioID, Fujitsu Limited, Imageware Systems Incorporated, IDEMIA France, Iritech Inc., M2SYS Inc., NEC Corporation and Thales Group.
Key Market Opportunities •Growing demand for Healthcare and Telemedicine
Key Market Drivers • Security Concerns
• Remote Work and Access Control

REPORT CONTENT BRIEF:

  • High-level analysis of the current and future Biometric-As-A-Service Market trends and opportunities
  • Detailed analysis of current market drivers, restraining factors, and opportunities in the future
  • Biometric-As-A-Service Market historical market size for the year 2021, and forecast from 2023 to 2033
  • Biometric-As-A-Service Market share analysis at each product level
  • Competitor analysis with detailed insight into its product segment, Government & Defense strength, and strategies adopted.
  • Identifies key strategies adopted including product launches and developments, mergers and acquisitions, joint ventures, collaborations, and partnerships as well as funding taken and investment done, among others.
  • To identify and understand the various factors involved in the global Biometric-As-A-Service Market affected by the pandemic
  • To provide a detailed insight into the major companies operating in the market. The profiling will include the Government & Defense health of the company’s past 2-3 years with segmental and regional revenue breakup, product offering, recent developments, SWOT analysis, and key strategies.

 

Frequently Asked Questions (FAQ)

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1. What is the study period of this market?

  • The study period of the global Biometric-As-A-Service Market is 2021- 2033

2. What is the growth rate of the global Biometric-As-A-Service Market?

  • The global Biometric-As-A-Service Market is growing at a CAGR of 4.41% over the next 10 years

3. Which region has the highest growth rate in the market of Biometric-As-A-Service Market?

  • Asia Pacific is expected to register the highest CAGR during 2023-2033

4. Which region has the largest share of the global Biometric-As-A-Service Market?

  • North Americaholds the largest share in 2022

5. Who are the key players in the global Biometric-As-A-Service Market?

  • Accenture, Aware Inc., BioID, Fujitsu Limited, Imageware Systems Incorporated, IDEMIA France, Iritech Inc., M2SYS Inc., NEC Corporation and Thales Group. are the major companies operating in the market.

6. Do you offer Post Sale Support?

  • Yes, we offer 16 hours of analyst support to solve the queries

7. Do you sell particular sections of a report?

Yes, we provide regional as well as country-level reports. Other than this we also provide a sectional report. Please get in contact with our sales representatives.

Table of Content

Table of Content

Chapter 1.   Executive Summary

Chapter 2.   Scope Of The Study

                     2.1.   Market Definition

                     2.2.   Scope Of The Study

                               2.2.1.   Objectives of Report

                               2.2.2.   Limitations

                     2.3.   Market Structure

Chapter 3.   Evolve BI Methodology

Chapter 4.   Market Insights and Trends

                     4.1.   Supply/ Value Chain Analysis

                               4.1.1.   Raw End Users Providers

                               4.1.2.   Manufacturing Process

                               4.1.3.   Distributors/Retailers

                               4.1.4.   End-Use Industry

                     4.2.   Porter’s Five Forces Analysis

                               4.2.1.   Threat Of New Entrants

                               4.2.2.   Bargaining Power Of Buyers

                               4.2.3.   Bargaining Power Of Suppliers

                               4.2.4.   Threat Of Substitutes

                               4.2.5.   Industry Rivalry

                     4.3.   Impact Of COVID-19 on the Biometric-As-A-Service Market

                               4.3.1.   Impact on Market Size

                               4.3.2.   End-Use Industry Trend, Preferences, and Budget Impact

                               4.3.3.   Regulatory Framework/Government Policies

                               4.3.4.   Key Players' Strategy to Tackle Negative Impact

                               4.3.5.   Opportunity Window

                     4.4.   Technology Overview

12.28.   Macro factor

                     4.6.   Micro Factor

                        4.7.Demand Supply Gap Analysis of the Biometric-As-A-Service Market

                        4.8.Import Analysis of the Biometric-As-A-Service Market

                        4.9.Export Analysis of the Biometric-As-A-Service Market

Chapter 5.   Market Dynamics

                     5.1.   Introduction

                     5.2.   DROC Analysis

                               5.2.1.   Drivers

                               5.2.2.   Restraints

                               5.2.3.   Opportunities

                               5.2.4.   Challenges

                     5.3.   Patent Analysis

                     5.4.   Industry Roadmap

                     5.5.   Parent/Peer Market Analysis

Chapter 6.   Global Biometric-As-A-Service Market, By Modality              

                     6.1.   Introduction

                     6.2.   Unimodal

                     6.3.   Multi-Modal

Chapter 7.   Global Biometric-As-A-Service Market, By Application

                     7.1.   Introduction

                     7.2.   BFSI

                     7.3.   Retail and E-commerce

                    7.4    Healthcare

                    7.5    Government & Defense

                    7.6     IT & Telecom

                 7.7    Education

Chapter 8.   Global Biometric-As-A-Service Market, By Region

8.1.   Introduction

8.2.   North America

8.2.1.   Introduction

8.2.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.2.3.   Market Size and Forecast, By Country, 2023-2033

8.2.4.   Market Size and Forecast, By Product Type, 2023-2033

8.2.5.   Market Size and Forecast, By End User, 2023-2033

8.2.6.   US

8.2.6.1.   Introduction

8.2.6.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.2.6.3.   Market Size and Forecast, By Product Type, 2023-2033

8.2.6.4.   Market Size and Forecast, By End User, 2023-2033

8.2.7.   Canada

8.2.7.1.   Introduction

8.2.7.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.2.7.4.   Market Size and Forecast, By Product Type, 2023-2033

8.2.7.5.   Market Size and Forecast, By End User, 2023-2033

8.3.   Europe

8.3.1.   Introduction

8.3.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.3.3.   Market Size and Forecast, By Country, 2023-2033

8.3.4.   Market Size and Forecast, By Product Type, 2023-2033

8.3.5.   Market Size and Forecast, By End User, 2023-2033

8.3.6.   Germany

8.3.6.1.   Introduction

8.3.6.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.3.6.3.   Market Size and Forecast, By Product Type, 2023-2033

8.3.6.4.   Market Size and Forecast, By End User, 2023-2033

8.3.7.   France

8.3.7.1.   Introduction

8.3.7.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.3.7.3.   Market Size and Forecast, By Product Type, 2023-2033

8.3.7.4.   Market Size and Forecast, By End User, 2023-2033

8.3.8.   UK

8.3.8.1.   Introduction

8.3.8.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.3.8.3.   Market Size and Forecast, By Product Type, 2023-2033

8.3.8.4.   Market Size and Forecast, By End User, 2023-2033

8.3.9.   Italy

8.3.9.1.   Introduction

8.3.9.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.3.9.3.   Market Size and Forecast, By Product Type, 2023-2033

8.3.9.4.   Market Size and Forecast, By End User, 2023-2033

8.3.11.   Rest Of Europe

8.3.11.1.   Introduction

8.3.11.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.3.11.3.   Market Size and Forecast, By Product Type, 2023-2033

8.3.11.4.   Market Size and Forecast, By End User, 2023-2033

8.4.   Asia-Pacific

8.4.1.   Introduction

8.4.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.4.3.   Market Size and Forecast, By Country, 2023-2033

8.4.4.   Market Size and Forecast, By Product Type, 2023-2033

8.12.28.   Market Size and Forecast, By End User, 2023-2033

8.4.6.   China

8.4.6.1.   Introduction

8.4.6.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.4.6.3.   Market Size and Forecast, By Product Type, 2023-2033

8.4.6.4.   Market Size and Forecast, By End User, 2023-2033

8.4.7.   India

8.4.7.1.   Introduction

8.4.7.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.4.7.3.   Market Size and Forecast, By Product Type, 2023-2033

8.4.7.4.   Market Size and Forecast, By End User, 2023-2033

8.4.8.   Japan

8.4.8.1.   Introduction

8.4.8.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.4.8.3.   Market Size and Forecast, By Product Type, 2023-2033

8.4.8.4.   Market Size and Forecast, By End User, 2023-2033

8.4.9.   South Korea

8.4.9.1.   Introduction

8.4.9.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.4.9.3.   Market Size and Forecast, By Product Type, 2023-2033

8.4.9.4.   Market Size and Forecast, By End User, 2023-2033

8.4.10.   Rest Of Asia-Pacific

8.4.10.1.   Introduction

8.4.10.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.4.10.3.   Market Size and Forecast, By Product Type, 2023-2033

8.4.10.4.   Market Size and Forecast, By End User, 2023-2033

8.5.   Rest Of The World (RoW)

8.5.1.   Introduction

8.5.2.   Driving Factors, Opportunity Analyzed, and Key Trends

8.5.3.   Market Size and Forecast, By Product Type, 2023-2033

8.5.4.   Market Size and Forecast, By End User, 2023-2033

Chapter 9.   Company Landscape

9.1.   Introduction

9.2.   Vendor Share Analysis

9.3.   Key Development Analysis

9.4.   Competitor Dashboard

Chapter 10.   Company Profiles

10.1.   Accenture

10.1.1.   Business Overview

10.1.2.   Government & Defense Analysis

10.1.2.1.   Government & Defense – Existing/Funding

10.1.3.   Product Portfolio

10.1.4.   Recent Development and Strategies Adopted

10.1.5.   SWOT Analysis

10.2.   Aware Inc.

10.2.1.   Business Overview

10.2.2.   Government & Defense Analysis

10.2.2.1.   Government & Defense – Existing/Funding

10.2.3.   Product Portfolio

10.2.4.   Recent Development and Strategies Adopted

10.2.5.   SWOT Analysis

10.3.   BioID

10.3.1.   Business Overview

10.3.2.   Government & Defense Analysis

10.3.2.1.   Government & Defense – Existing/Funding

10.3.3.   Product Portfolio

10.3.4.   Recent Development and Strategies Adopted

10.3.5.   SWOT Analysis

10.4.   Fujitsu Limited

10.4.1.   Business Overview

10.4.2.   Government & Defense Analysis

10.4.2.1.   Government & Defense – Existing/Funding

10.4.3.   Product Portfolio

10.4.4.   Recent Development and Strategies Adopted

10.12.28.   SWOT Analysis

10.5.   Imageware Systems Incorporated

10.5.1.   Business Overview

10.5.2.   Government & Defense Analysis

10.5.2.1.   Government & Defense – Existing/Funding

10.5.3.   Product Portfolio

10.5.4.   Recent Development and Strategies Adopted

10.5.5.   SWOT Analysis

10.6.   IDEMIA France

10.6.1.   Business Overview

10.6.2.   Government & Defense Analysis

10.6.2.1.   Government & Defense – Existing/Funding

10.6.3.   Product Portfolio

10.6.4.   Recent Development and Strategies Adopted

10.6.5.   SWOT Analysis

10.7.   Iritech Inc.

10.7.1.   Business Overview

10.7.2.   Government & Defense Analysis

10.7.2.1.   Government & Defense – Existing/Funding

10.7.3.   Product Portfolio

10.7.4.   Recent Development and Strategies Adopted

10.7.5.   SWOT Analysis

10.8     M2SYS Inc.

10.8.1.   Business Overview

10.8.2.   Government & Defense Analysis

10.8.2.1.   Government & Defense – Existing/Funding

10.8.3.   Product Portfolio

10.8.4.   Recent Development and Strategies Adopted

10.8.5.   SWOT Analysis

10.9      NEC Corporation

10.9.1.   Business Overview

10.9.2.   Government & Defense Analysis

10.9.2.1.   Government & Defense – Existing/Funding

10.9.3.   Product Portfolio

10.9.4.   Recent Development and Strategies Adopted

10.9.5.   SWOT Analysis

10.10.   Thales Group

10.10.1.   Business Overview

10.10.2.   Government & Defense Analysis

10.10.2.1.   Government & Defense – Existing/Funding

10.10.3.   Product Portfolio

10.10.4.   Recent Development and Strategies Adopted

10.10.5.   SWOT Analysis

 

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