オーストリアの重要通信市場 – 業界動向と2029年までの予測

オーストリアの重要な通信市場の分析と規模

常に信頼性が高く安全な通信を提供しなければならないモバイルおよび無線通信システムと機器は、重要な通信と見なされます。これらのネットワークは、ミッション クリティカルな通信ネットワークやビジネス クリティカルな通信ネットワークと呼ばれることがよくあります。

Get Exclusive Sample PDF of this Report Here

Get Exclusive Sample PDF of this Report Here

ただし、ミッション クリティカル ネットワークは、一部のミッションの達成 (主に公共の安全) に必要であり、ビジネス クリティカル ネットワークは、信頼性の高い通信がなければ運営できないビジネスに役立ちます。ミッション クリティカル ネットワークまたはビジネス クリティカル ネットワーク (輸送、電力、石油、ガスの生産) の全体的な標準分類は存在しません。

緊急サービスの運営は、重要な通信に依存しています。標準化は、必要なときにいつでもアクセスできる効果的なシステムを確保する上で重要です。重要な通信は、標準ネットワークが要求に対応できない場合に利用されます。重要な通信の問題の例には、コミュニティのセキュリティや救助通信などがあります。通信の重要な消費者には、航空、石油とガス、公共事業、ミッションクリティカルな分野、その他の危機サービスなどがあります。特に製造部門では、セキュリティの問題や正確な操作のために、重要な通信用の適応型ブロードバンドがよく使用されています。タイムライン、範囲、予算を満たすには、重要な通信システムの適切な計画の各段階で、必要なハードウェアとソフトウェアに支えられた熱心な専門家が必要です。

オーストリアの重要通信システムは災害多発地域で盛んに導入されており、重要通信用の高度な通信システムや、あらゆる分野で重要通信システムを推進する政府の取り組みが高まっていることから、市場の成長が加速しています。重要通信システムの実装にかかるコストが高いため、オーストリアの重要通信市場は抑制されると予想されます。

Data Bridge Market Research の分析によると、オーストリアのクリティカル コミュニケーション市場は、予測期間中に 4.2% の CAGR で成長し、2029 年までに 7,206 万米ドルに達する見込みです。ハードウェア セグメントは、クリティカル コミュニケーション市場における最大の提供セグメントです。オーストリアのクリティカル コミュニケーション市場レポートでは、価格分析、特許分析、技術進歩についても詳細に取り上げています。

Get Exclusive Sample PDF of this Report Here

市場の定義

クリティカル通信ソリューションは、緊急事態、災害、障害などのクリティカルな状況で使用される通信モードです。クリティカル通信には、あらゆる状況で信頼性が高く安全な通信を提供するモバイル、無線通信システム、その他のデバイスが含まれます。組織のさまざまなモードに応じて、ビジネスクリティカル、ミッションクリティカル、セーフティクリティカル、セキュリティクリティカルなど、さまざまなクリティカル通信モードがあります。クリティカル通信は、吊り上げ操作、緊急対応、さまざまな関係者間の調整など、安全が重要なさまざまなタスクやアクティビティで不可欠です。

オーストリアの重要なコミュニケーション市場の動向

このセクションでは、市場の推進要因、機会、制約、課題について理解します。これらについては、以下で詳しく説明します。

ドライバー

• ミッションクリティカルなIoTと業界のデジタル化への傾向

近年、IoT エコシステムには大きな変化が起こっています。さまざまな標準電子部品がこのエコシステムで利用されており、ハードウェアはさまざまなソフトウェアと統合されています。IoT 時代にはこうした技術を活用することが絶対的に必要であり、市場の成長を牽引しています。技術の進歩に伴い、企業もデジタル化へと移行し、通信分野における高度な機能に対する消費者の高まる需要に応えています。

IoT 対応デバイスは、より広範囲の高度なネットワークに接続できるため、幅広い機能を実現できます。IoT 対応デバイスは、製造、輸送、梱包、医療、通信など、さまざまな業界で広く採用されています。

モノのインターネット (IoT) は、モバイル デバイスに統合されたすべての通信ソフトウェアとアプリケーションに、データに基づく洞察と効率化の自動化をもたらします。IoT デバイスからのデータと重要な通信を組み合わせることで、自動化された意思決定と高度な通信のための緊急警報システムを開発できます。これにより、企業は重要な警報を追加し、適切な人を適切なタイミングで物理デバイスに接続して適切な措置を講じることができます。

高度な通信を容易にし、警告システムを提供し、ユーザーがモノのインターネット (IoT) 技術をより迅速に判断できるようにするなどの利点があるため、クリティカル通信市場ではこのような技術を採用する需要が非常に高くなっています。したがって、IoT 技術を使用して安全で信頼性の高い通信を提供することで、オーストリアのクリティカル通信市場の成長が促進されます。

• 重要なコミュニケーションにおけるスマートフォン、タブレット、ノートパソコンの普及率の増加

現代のデジタル ワイヤレス ハンドセットは、携帯電話業界に幅広いスマート機能をもたらす真の通信ハブとして機能しなければなりません。これには、Web ブラウジング、電子メール、ワイヤレスPDA、ボイス メモ、双方向ページング、留守番電話、全地球測位システム (GPS) が 1 つのエンティティに含まれています。

そのため、スマートフォン、タブレット、ラップトップの導入は、消費者の通信能力の向上に役立ちます。スマート接続デバイスを使用すると、Windows および Android フォンが提供する GPS 位置情報と高度な位置認識機能を使用して、重要な通信が可能になります。したがって、あらゆる危機的状況で緊急電話​​をかけると、救助と支援のために地元の機関に警告することができます。より良い成長のために、メーカーはさまざまな措置を講じています。たとえば、ベルギーの公共安全通信ネットワークのオペレーターである ASTRID です。2022 年秋には、緊急サービスとセキュリティ サービス用の音声とデータ通信を優先する Blue Light Mobile サービスに新しい代替手段が提供される予定です。

したがって、スマート モバイル、タブレット、ラップトップの普及率の高まりが、重要なコミュニケーションと市場の成長を促進しています。

• 重要な通信のための保護された衛星通信ソリューション

衛星通信は、人工衛星が地球上のさまざまな地点間の通信リンクを提供する、現代の電気通信の一種です。衛星通信は、放送局、インターネット サービス プロバイダー (ISP)、政府、軍隊などにさまざまなサービスを提供する多くのセクターへの衛星サービスで重要な役割を果たしています。放送業界は、石油とガス、IoT、医療、政府、海事、鉱業など、さまざまなビジネス セクターでの事業継続と緊急管理を目的としています。さらに、衛星通信は、さまざまな商業、政府、軍事アプリケーションで使用されています。

With the growth in satellite communication, critical communications between command centers and operational forces can reliably and securely retrieve information. Satellite communication can offer long-range connectivity and shortens the decision-making process to a few seconds, giving a major tactical and decisive advantage in assisting consumers. Critical mission communications using satellite communication are broadly used in the defense sector and other government agencies. Moreover, satellite communication can also be used for commercial purposes such as rescue missions, providing alerts for industries set up in disaster-prone areas, and others where this mode of communication plays a decisive role.

Thereby growth in satellite communication is expected to boost the critical communications systems capabilities and its market growth across all regions of the globe.

Get Exclusive Sample PDF of this Report Here

Opportunities

• Rise in demand for mission-critical communication service (MCS) for business

A push to talk service developed for mission critical standards would satisfy business critical standards. Different levels of QoS (Quality of Service), which are higher than consumer services but not as high as those needed for mission-critical, can be offered to service business critical opportunities. The industries that may benefit from business-critical communications include the financial sector (Banking), media, and utility sectors. Services that require a specific QoS treatment may be identified based on the subscription or application.

DACH countries have started assessing, planning, or deploying mission critical and business critical services, primarily focusing on mission critical services as replacements for legacy systems. The status of the country is as follows:

Austria: Critical Communications World 2018, Berlin, Germany, and Austria have chosen similar paths regarding public safety communication. Both countries are federal governments, so the first decision was to integrate all public security users into the network of federal organizations. It was successful, as demonstrated at the summit, where cooperation between all public security forces through a single network was very helpful, and their major contribution to their operations was successful. This opened the path for private and government bodies to adopt and encourage critical communication within their operating limits.

• Growing prevalence for public safety and essential communications

Existing networks for public safety communications are mostly based on systems such as terrestrial trunked radio (TETRA), TETRAPOL, and Project 25. These systems are mainly designed to support voice services. However, public safety communication networks are challenged to expand their scope beyond their original functions toward more sophisticated devices and support new services, including packet data communications. Therefore, governments, public safety agencies, and research communities are continuously working together and making significant progress toward improving public safety communications capabilities. Next-generation mobile technologies are the enablers for meeting the new requirements of the public safety community. Public safety and commercial systems are typically designed and deployed to fulfill different needs and requirements, directly affecting the quality of service of communications. Public safety's unique and vital nature affects the technical decisions necessary to guarantee connectivity for everyone, anywhere and anytime.

For this reason, recent enhancements of the 4G long-term evolution (LTE) in the field of public safety communications, such as device-to-device and group communications for mobiles in physical proximity, accrue a great opportunity to bring new services and a high level of technological innovation to the public safety workers or first responders. We describe and analyze the evolution of public safety communication systems from the technical standpoint providing a complete overview of what is available in the market and a glimpse of future trends. Furthermore, we discuss the challenges to deploying, operating, and interoperating present efficient and future technologies for public safety communication networks and describe how these technologies can help public safety agencies to meet their expectations.

The adoption of 4G LTE as a candidate for public safety communications introduces a unique opportunity to improve the response of PPDR organizations. It will bring high-level applications to first responders. Indeed, 3GPP incorporates enhanced features to meet the requirements of the public safety community. Establishing common technical standards for commercial and public safety communication networks offers several advantages to both communities.

The design of public safety technologies was, is, and will be greatly influenced by public safety actors and their policies. Deployment, operations, and services are influenced by decisions commanded by policies, with standardization determining the efficiency, resilience, and flexibility of public safety communication networks. LTE will continue to develop in a backward-compatible approach and will be an important part of the 5G solution. However, 5G wireless access does not focus on specific radio access technology. It is, rather, the overall wireless-access solution addressing the demands and requirements of future mobile communication and advanced public safety communications.

Restraints/Challenges

• Cyber security and privacy threats in critical communication

Cybercrime/hacking and cyber security issues have increased by 600% during the pandemic across all sectors. Flaws in network or software security is a weakness that hackers exploit to perform unauthorized actions within a system.

Since the initiative of digitizing and digital connectivity in the communication industry, cyber breaches have increased significantly. Now, hackers can easily hack the communication sector and gather information such as location information and other credentials. This is fundamentally due to weak and outdated systems used by consumers.

Dynamic challenges for state and local governments are protecting critical infrastructure networks, such as transportation and railway transport. There is a growing concern as control and management systems become increasingly dependent on information technology due to increased automation and the number of interconnected devices across the sector.

Critical communication networks need to benefit from enhanced service continuity and security to cope with cyber-attacks of all kinds. To attain this, companies must have communication networks that are secure at all times. But especially with the progressive migration towards more modern, complex, and high-performance architectures using the IP protocol.

The growing cyber threats and hacking incidents in critical communication sectors due to weak infrastructure facilities and outdated systems pose a huge threat to the safety and security of the consumer requesting critical assistance. This never-ending cycle of cyber-attack scenarios can threaten or weaken the market's growth.

• Lack of available spectrum capacity for critical communication service

The radio frequencies that wireless signals travel through are referred to as the spectrum. These signals allow us to use our mobile devices to make calls, communicate in critical situations, text over the network, communicate through apps, and do all other functions. Spectrum refers to the invisible radio frequency ranges that wireless signals travel over a given medium. The frequencies that we use for wireless communications are a part electromagnetic spectrum.

The spectrum is broadly distributed to various applications such as Jam-resistant communication systems, High Resolution Ranging, WLAN. Allocating new spectrums for critical communications applications can be a complex process as it might lead to interference and mismatch issues of the signals causing difficulty in availing optimum services. Thereby spectrum allocation for critical communications devices and systems can significantly restrain the market's growth. The manufacturers of critical communications devices must comply with the spectrum regulation restricting the market's growth.

Challenges

• Complexity in systems incorporating trunking and digital capabilities

A network trunk is a communications line or link created to transport several signals concurrently between two sites. In a communications system, trunks often link switching centers. The signals are capable of carrying any kind of communications data. Due to growing digital capabilities, trunking issues can be a significant problem in critical communications. Trunk-based development model done to upgrade a system is a type of branching model where software designers regularly make small code, and small changes to a single shared branch in the version control system. The shared branch or trunk is also called the baseline branch or mainline branch.

Digital transformation in critical communications is one of the major trends in the communication sector. Complex trunk-based development is used to cater to such growing demand. The trunk-based development can lead to various issues, such as cyber threats and others. The complexity involved in trunk-based development is expected to challenge the digital transformation for critical communications and its market. This issue can be resolved by updating the existing trunking method and adding new trunking technology per the market requirement can help the market grow at a very good rate.

• Latency and accessibility issues faced in mission-critical communication service

Audio latency is a short delay, usually measured in milliseconds, between an audio signal entering a system and when it emerges. There are multiple reasons for latency issues in an audio system, including digital-to-analog conversion and vice versa, buffering issues, digital signal processing, signal transmission time, and others.

On the other hand, accessibility issues faced by a consumer for critical communication mainly occur due to poor connectivity or network availability. Another reason for the accessibility issues faced by consumers can be the traffic issues that occurred due to the availability of spectrum to make the critical call or the poor architecture which limits critical communication.

Thereby choosing optimum connectivity solutions can significantly help in minimizing the latency issues, but the deployment of 5G solutions can be expensive for the time being. On the other hand, accessibility issues will also improve as the latency issues are minimized. Till then, latency issues & accessibility issues are expected to challenge the growth of the market.

Recent Developments

• In October 2022, Vodafone Group plc announced that the company would participate in Green Tech Festival 2022. The company aims to increase its market dominance in the communication sector through this step and promote its offered services. The event participation will allow the company to incline more contracts in the market.
• In June 2022, Atos SE presented at Critical Communications World 2022, the world's leading critical communications conference and exhibition, for over twenty years. In this event, they talked about the application of critical communication from their ends, such as public safety, defense, energy, transportation, and Industry 4.0. This company showcased the potential of its service and its future goal to achieve.

Austria Critical Communication Market Scope

The Austria critical communication market is segmented based on offering, technology, enterprise type, and vertical. The growth amongst these segments will help you analyze meager growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.

By Offering

• Hardware
• Services

On the basis of offering, Austria critical communication market is segmented into hardware, and services.

By Technology

• Land Mobile Radio (LMR)
• Long-Term Evolution (LTE)

On the basis of technology, Austria critical communication market is segmented into land mobile radio (LMR), and long-term evolution (LTE).

By Enterprise Type

• Large Enterprises
• Small & Medium Enterprises

On the basis of enterprise type, Austria critical communication market is segmented into large enterprises, small & medium enterprises.

By Vertical

• Public Safety
• Government Agencies
• Police and Security Department
• Transportation
• Utilities
• Others

Get Exclusive Sample PDF of this Report Here

On the basis of vertical, Austria critical communication market is segmented into public safety, government agencies, police and security department, transportation, utilities, and others.

Competitive Landscape and Austria Critical Communication Market Share Analysis

オーストリアの重要通信市場の競争状況は、競合他社の詳細を提供します。含まれる詳細には、会社概要、会社の財務状況、収益、市場の可能性、研究開発への投資、新しい市場への取り組み、世界的なプレゼンス、生産拠点と施設、生産能力、会社の強みと弱み、製品の発売、製品の幅と広さ、アプリケーションの優位性などがあります。提供されている上記のデータ ポイントは、オーストリアの重要通信市場に関連する会社の焦点にのみ関連しています。

オーストリアの重要通信市場における主要なキープレーヤーとしては、Ascom Holding AG、TASSTA GmbH、Deutsche Telekom AG、CONET、Atos SE、Connect44、Vodafone Group Plc、Telefónica Germany GmbH & Co. OHG、Lockheed Martin Corporation、freenet AG、Motorola Solutions、Inc.、Telefonaktiebolaget LM Ericsson、Telstra、AT&T Inc.、Nokia、Huawei Technologies Co., Ltd.、Frequentis AG、eurofunk KAPPACHER GmbH、JST Jungmann Systemtechnik.、SINUS Nachrichtentechnik などが挙げられます。

SKU-69384