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通信システムインテグレーションの世界市場-2023年~2030年Global Telecom System Integration Market - 2023-2030 |
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通信システムインテグレーションの世界市場-2023年~2030年 |
出版日: 2023年09月11日
発行: DataM Intelligence
ページ情報: 英文 208 Pages
納期: 約2営業日
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世界の通信システムインテグレーション市場は、2022年に215億米ドルに達し、2023年から2030年の予測期間中にCAGR 8.3%で成長し、2030年には401億米ドルに達すると予測されています。
5G、IoT、クラウドコンピューティング、AIを含む通信技術の急速な進化は、シームレスなサービスと機能を提供するために複雑で多様なシステムを効果的に統合する必要性を高めています。ネットワークがより複雑で多様になるにつれ、企業はネットワーク・パフォーマンスの最適化、トラフィックの管理、相互運用性の確保、運用の合理化を実現する統合ソリューションを求めています。
業界を問わず、組織は効率と競合を強化するためにDXを進めており、そのためには各種のコミュニケーションツール、プラットフォーム、アプリケーションを統合し、コラボレーションと顧客体験を向上させる必要があります。世界な接続に対する需要は高まり続けており、地域や国を超えた通信やデータ交換を促進する統合ソリューションの必要性が高まっています。
アジア太平洋は、世界の通信システムインテグレーション市場の約1/4を占める成長地域のひとつです。この地域は、IoTデバイスの製造と展開の重要な拠点となっています。通信システムインテグレーションは、多様なIoTデバイスとプラットフォームの統合を可能にし、スマート産業、農業、ヘルスケアの成長に貢献しています。
5Gは、旧世代の無線技術に比べて大幅に高速なデータ速度と低遅延を実現し、リアルタイム通信、シームレスなストリーミング、迅速なデータ転送を可能にすることで、ユーザー体験を向上させ、新たなアプリケーションを可能にします。5Gの低遅延と高データレートは、データ処理と分析がデータソースの近くで行われるエッジコンピューティングを促進します。
例えば、2023年2月27日、著名な世界・テクノロジー企業であるHCLTechは、Mobile World Congress 2023において、5Gエコシステム向けに調整された一連の革新的なテクノロジー・ソリューションを発表しました。HCLTechは、将来対応可能な5Gネットワークにおける重要なコンポーネントのシームレスな展開と統合を促進する5G SFを発表し、このフレームワークは、仮想機能のオンボーディングを可能にし、運用効率を高め、ネットワークとユーザー体験を改善することで、CSP、企業、ハイパースケーラー、チップおよび機器メーカーに利益をもたらします。
通信情勢には、さまざまなベンダーのテクノロジー、ハードウェア、ソフトウェア、サービスが関わっています。協調的な取り組みは、これらの多様なコンポーネントがシームレスに連携し、相互運用性と互換性のあるソリューションを構築できるようにするのに役立ちます。これは、さまざまなベンダーのコンポーネントが効率的に相互運用し、まとまりのあるネットワークを構築する必要があるOpen RANのような分野で特に重要です。
例えば、2022年10月26日、ボーダフォンとNTTドコモは、Open RAN技術の通信システムインテグレーションとテストプロセスの調和を目的とした協力関係を締結しました。ボーダフォンとNTTドコモの協業は、様々なベンダーのコンポーネントがネットワーク内でシームレスに連携できるようにし、柔軟性と革新性を高めることを目指しています。また、Open RAN導入のベストプラクティスとフレームワークを確立することで、業界全体に影響を与える可能性があります。
エッジコンピューティングの台頭により、ネットワークのエッジでネットワークリソース、コンピューティングパワー、データストレージを統合する必要性が生じています。通信システムインテグレーションは、中央データセンターとエッジデバイス間の効率的な調整を可能にし、リアルタイムのデータ処理と低遅延通信を強化します。統合は、クラウドサービスと既存の通信システムとの相互運用性を確保し、柔軟でスケーラブルな運用を可能にするために極めて重要です。
例えば、2023年5月3日、Telecom Infra Projectはアクセンチュアと共同で「TIPアカデミー」を導入しました。TIPアカデミーは、電気通信業界の従業員のスキルアップとデジタル流暢性の向上を目的としたB2B学習プラットフォームです。IPアカデミーの目的は、公平で包括的なトレーニングを提供し、業界におけるオープンで分離されたネットワークソリューションの展開を加速することです。
通信システムインテグレーションには、さまざまなベンダーの幅広い技術、システム、コンポーネントが含まれ、それぞれが独自の仕様とインターフェースを備えています。この複雑さを管理することは困難な状況であり、相互運用性の問題やプロジェクトの遅延につながる可能性があります。様々なシステムやコンポーネント間のシームレスな相互運用性を確保することは、通信システムインテグレーションにおける大きな課題です。
特定のビジネス要件に合わせてインテグレーションソリューションをカスタマイズ・調整することは、開発、テスト、実装のコスト増につながる高価で時間のかかる作業です。複数のシステムやコンポーネントを統合することは、セキュリティの脆弱性やデータ・プライバシーの問題を引き起こす可能性があります。インテグレーションシステムの安全性と法規制への準拠を確保することは、重要な課題です。
Global Telecom System Integration Market reached US$ 21.5 billion in 2022 and is expected to reach US$ 40.1 billion by 2030, growing with a CAGR of 8.3% during the forecast period 2023-2030.
The rapid evolution of telecommunication technologies that includes 5G, IoT, cloud computing and AI which drives the need for effective integration of complex and diverse systems to deliver seamless services and capabilities. As networks become more complex and diverse, businesses seek integration solutions to optimize network performance, manage traffic, ensure interoperability and streamline operations.
Organizations across industries are undergoing digital transformation to enhance efficiency and competitiveness and this requires integrating various communication tools, platforms and applications to improve collaboration and customer experiences. The demand for global connectivity continues to rise driving the need for integrated solutions that facilitate communication and data exchange across regions and countries.
Asia-Pacific is among the growing regions in the global telecom system integration market covering about 1/4th of the market. The region is a significant hub for IoT device manufacturing and deployment. Telecom system integration enables the integration of diverse IoT devices and platforms, contributing to the growth of smart industries, agriculture and healthcare.
5G offers significantly faster data speeds and lower latency compared to previous generations of wireless technology and this enables real-time communication, seamless streaming and quick data transfers, enhancing user experiences and enabling new applications. 5G's low latency and high data rates facilitate edge computing, where data processing and analysis occur closer to the data source.
For instance, on 27 February 2023, HCLTech, a prominent global technology company, unveiled a series of innovative technology solutions tailored for the 5G ecosystem at the Mobile World Congress 2023. HCLTech introduced its 5G SF to facilitate seamless deployment and integration of critical components in a future-ready 5G network and this framework benefits CSPs, enterprises, hyperscalers, chip and equipment manufacturers by enabling virtual functions onboarding, enhancing operational efficiencies and improving network and user experiences.
The telecommunications landscape involves a variety of technologies, hardware, software and services from different vendors. Collaborative efforts help ensure that these diverse components can work seamlessly together, creating interoperable and compatible solutions and this is particularly important in areas like Open RAN, where components from various vendors need to interoperate efficiently to build a cohesive network.
For instance, on 26 October 2022, Vodafone and NTT Docomo have entered into a collaboration aimed at harmonizing the telecom system integration and testing processes for Open RAN technology. The collaboration between Vodafone and NTT Docomo seeks to ensure that components from various vendors can seamlessly work together within the network, enhancing flexibility and innovation. It could have a broader industry impact by establishing best practices and frameworks for Open RAN deployment.
The rise of edge computing has led to the need for integrating network resources, computing power and data storage at the edge of the network. Telecom system integration enables efficient coordination between central data centers and edge devices, enhancing real-time data processing and low-latency communication. Integration is crucial to ensure the interoperability of cloud services with existing telecom systems, enabling flexible and scalable operations.
For instance, on 3 May 2023, the Telecom Infra Project introduced the 'TIP Academy' in collaboration with Accenture, aiming to address the global skills and resource shortage in the telecom industry. TIP Academy is a B2B learning platform designed to upskill the telecom workforce and improve their digital fluency. IP Academy aims to provide impartial and comprehensive training to accelerate the deployment of open and disaggregated network solutions within the industry.
Telecom system integration involves the integration of a wide range of technologies, systems and components from different vendors, each with its own specifications and interfaces. Managing this complexity would be a challenging situation, leading to potential interoperability issues and project delays. Ensuring seamless interoperability among various systems and components is a major challenge in telecom system integration.
Customizing and tailoring integrated solutions for specific business requirements is expensive and time-consuming which leads to increased costs for development, testing and implementation. Integrating multiple systems and components can introduce security vulnerabilities and data privacy concerns. Ensuring that integrated systems are secure and compliant with regulations is a critical challenge.
The global telecom system integration market is segmented based type, deployment, organization size, application and region.
Cloud-based is expected to be the major segment fueling the market growth with a share of about 1/3rd in 2022. Cloud solutions provide the ability to scale up or down quickly based on demand, allowing telecom companies to efficiently manage network traffic spikes and fluctuations in service usage. Cloud solutions enable faster deployment of new services and applications, reducing time-to-market for telecom offerings and allowing companies to stay competitive in a dynamic market.
Cloud ecosystems encourage collaboration among telecom operators, technology providers and developers. For instance, on 24 August 2023, IFS, a global cloud enterprise software company, announced that Tele2, a leading Swedish telecommunications services provider, will implement the latest version of IFS Cloud to enhance its core operations and further develop its 5G offerings.
By implementing IFS Cloud, Tele2 aims to simplify its processes, automate operations and gain a comprehensive view of its business processes and this will enable better control over various aspects of its operations, including retail, supply chain management and finance.
North America is the largest region in the global telecom system integration market covering more than 1/3rd of the market. Industries across North America are undergoing digital transformations to improve efficiency, productivity and customer experiences. Telecom system integration facilitates the integration of digital solutions into existing processes. Effective B2B collaboration often requires integrated communication systems to streamline communication between suppliers, partners and customers.
For instance, on 11 August 2023, Radisys, a leading provider of open telecom solutions announced the acquisition of Mimosa Networks, a company focused on wireless broadband solutions and this strategic move aims to accelerate the availability of broadband access in order to support the advancement of societies and improve connectivity.
By combining Radisys' telecom expertise with Mimosa Networks' wireless broadband solutions, the companies aim to offer innovative and cost-effective alternatives to traditional wired broadband infrastructure. The acquisition is expected to enhance Radisys' portfolio of telecom solutions and contribute to the expansion of broadband access, ultimately contributing to the advancement of societies by enabling seamless communication and information exchange.
The major global players in the market include: Wipro, Ericsson, Nokia Networks, IBM, Huawei, Tech Mahindra, Infosys, Cognizant, Amdocs and HCL.
The pandemic forced many telecom companies to implement remote work policies to ensure the safety of their employees and this shift highlighted the importance of robust communication and collaboration tools, prompting telecom companies to integrate and optimize virtual collaboration solutions to maintain productivity and connectivity among their remote workforce. Telecom providers had to rapidly scale their networks, optimize traffic management and ensure seamless connectivity to meet the growing demands.
The pandemic accelerated the adoption of cloud-based services and solutions. Telecom companies started to leverage cloud platforms for network management, service deployment and virtualization, leading to increased integration efforts with cloud providers. COVID-19 underscored the importance of digital transformation for telecom companies. System integration became critical for enabling digital services, improving customer experience and automating processes to adapt to the changing market landscape.
Disruptions in the global supply chain affected the availability of hardware components and devices. Telecom providers had to optimize their supply chain management, implement alternative solutions and integrate existing resources efficiently. Social distancing and lockdowns posed challenges for deploying and maintaining network infrastructure. Telecom companies explored remote monitoring and maintenance.
AI-driven predictive analytics can help optimize network planning and design by analyzing data on user behaviors, traffic patterns and usage trends and this enables telecom companies to deploy resources more efficiently, minimize coverage gaps and plan for future capacity needs. AI-powered automation can streamline the configuration and deployment of network components. Self-configuring networks can adapt to changes in real-time, reducing manual intervention and minimizing human errors.
AI-driven algorithms can detect network faults and anomalies in real-time, enabling proactive maintenance to prevent service disruptions. Predictive analytics identifies potential hardware failures before they occur, reducing downtime and improving network reliability. AI and machine learning enable dynamic service orchestration by analyzing network conditions, traffic loads and user demands and this allows for on-demand allocation and optimization of network resources to deliver the best quality of service.
For instance, on 21 March 2023, AT&T Corp. and NVIDIA entered into a collaboration to leverage NVIDIA-powered AI for enhancing AT&T's operations and sustainability efforts. AT&T plans to utilize a comprehensive suite of NVIDIA AI solutions to optimize data processing, improve service-fleet routing and create digital avatars for employee support and training.
The company will also implement real-time vehicle routing and optimization using NVIDIA cuOpt, adopt digital avatars through NVIDIA Omniverse Avatar Cloud Engine and NVIDIA Tokkio and incorporate conversational AI using NVIDIA Riva.
The conflict may disrupt supply chains that provide critical components and materials for telecom integration system manufacturing which could lead to shortages and delays in production, affecting the availability of telecom networks. Companies in the region directly affected by the conflict may face challenges in conducting research and development activities. Resources that would have been allocated to innovation and technology advancement are diverted to address more immediate concerns related to the conflict.
Geopolitical tension between countries might increase concerns about data privacy and security. Telecom providers need to implement additional security measures for protecting customer data and prevent cyber threats, which could impact the integration process. Geopolitical conflicts can lead to changes in regulations and policies, especially in regions directly involved in the conflict. Telecom providers may need to navigate new regulatory requirements, which could affect their system integration strategies.
The global telecom system integration market report would provide approximately 69 tables, 69 figures and 208 pages.
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