戦術通信市場：コンポーネント、展開モード、テクノロジー、エンドユース別-2025-2030年の世界予測

戦術通信市場は、2024年に100億米ドルと評価され、2025年には112億1,000万米ドル、CAGR12.60%で成長し、2030年には203億9,000万米ドルに達すると予測されています。

現代の作戦における戦術的通信の重要な役割を明らかにし、迅速な対応のための実用的な洞察で戦略的意思決定者に力を与える

作戦の敏捷性と安全な接続性が最重要視される現在、戦術通信システムはミッションクリティカルなインフラの最前線に立っています。軍事ユニット、緊急対応要員、および重要な公共事業運営者は、厳しい条件下でリアルタイムの音声、データ、および状況認識を提供する次世代ネットワークへの依存度を高めています。本セクションでは、戦術的通信分野を形成する主要な促進要因を紹介し、本レポート全体を通じて調査される包括的なテーマを構成します。

技術戦略および運用領域にわたり、戦術的通信の状況を形成する主要な変革の特定

技術的・戦略的な要請は、戦術的通信の状況を大きく変化させつつあります。ソフトウェア定義アーキテクチャは近代化努力の要として登場し、異種ネットワーク間での音声、ビデオ、データのシームレスな統合を可能にしています。このシフトにより、リアルタイム分析、人工知能、機械学習を活用してリソース割り当てを最適化し、状況認識を強化するコマンド・アンド・コントロール・プラットフォームの導入が加速しています。その結果、レガシーシステムと新興システム間の相互運用性が重要な優先事項となり、オープンスタンダードとモジュラーコンポーネントの需要が高まっています。

米国の関税政策が2025年の戦術通信サプライチェーンと運用コストに与える累積的影響の評価

2025年において、戦術通信コンポーネントとサブシステムに対する米国の関税政策の累積的影響は、複雑なコストの検討とサプライチェーンの課題を導入しています。輸入半導体、RFモジュール、補助電子機器に対する関税は調達コストを上昇させ、相手先商標製品メーカーやシステムインテグレーターに調達戦略の見直しを促しています。こうした措置は、国内生産を強化し、国内の技術革新を促進することを目的としているが、同時に、一部の企業は、関連市場の代替サプライヤー・ネットワークを模索するようになりました。

戦術通信需要を牽引するコンポーネント展開モード技術および最終用途にわたる主要セグメンテーション洞察の解明

市場セグメンテーションを詳細に検討すると、コンポーネント・ポートフォリオ、展開モード、テクノロジー・プラットフォーム、最終用途の各分野で明確な傾向が明らかになります。コンポーネント領域では、ハードウェアソリューションは、多様なアクセサリー、無線機、中継器、端末を包含します。これらの有形資産は戦術ネットワークのバックボーンを形成し、過酷な条件下で堅牢な性能を提供します。このエコシステムを補完するソフトウェア・ソリューションには、集中監視と動的設定を可能にするネットワーク管理ツールとともに、高度なコマンド＆コントロール・プラットフォームが含まれます。

南北アメリカ、欧州、中東・アフリカ、アジア太平洋地域の戦術通信力学と市場促進要因に関する主なハイライト

地域ダイナミックスは、戦術通信への投資と技術導入に大きな影響を及ぼします。南北アメリカでは、北米の防衛近代化構想と公共安全のアップグレードが、ラテンアメリカの安全なネットワークに対する需要の高まりと共存しています。米国の調達サイクルは、厳しい認証基準と国防予算と連動した予算サイクルによって特徴付けられるが、南米の新興市場は国境警備と災害対応能力に重点を置いています。

イノベーションの道筋を形成する主要戦術通信プロバイダーにおける戦略的企業の動きと競合ダイナミクスのマッピング

戦術通信分野の主要企業は、新たな機会を捉え、進化するユーザー要件に対応するため、多様な戦略を描いています。既存の防衛関連企業は、ソフトウェア定義無線の機能をレガシー・プラットフォームに統合する一方、技術的破壊をもたらす企業は、迅速な機能展開と拡張性を約束するクラウドネイティブなコマンド＆コントロール・ソリューションに注力しています。戦略的パートナーシップや共同事業は、RFエンジニアリング、サイバーセキュリティ、システム統合にまたがる専門知識を結集する上で重要な役割を果たすようになっています。

混乱を乗り切り、回復力を高め、戦術的通信の動向を活用するために、業界リーダーに実行可能な提言を提供します

業界のリーダーたちは、戦術的通信における混乱に対応し、競争上の優位性を維持するために、将来を見据えた考え方を採用しなければならないです。オープン・アーキテクチャ標準を採用することで、プラットフォーム間の相互運用性を促進し、同盟システムとの統合を合理化します。モジュール式のハードウェアとソフトウェアのフレームワークを優先することで、組織はアップグレードサイクルを早め、陳腐化リスクを低減し、時間と予算の両方を節約することができます。

偏りのない戦術通信に関する洞察のための1次インタビュー2次データの検証および分析フレームワークを組み合わせた堅牢な調査手法の詳細

この調査手法は、戦術的コミュニケーションの状況について、偏りのない確かな洞察を提供するために設計された多面的な手法によって支えられています。一次データは、軍の通信将校、緊急対応コーディネーター、重要インフラオペレーターとの詳細なインタビューを通じて収集されました。これらの会話から、運用上の要件、問題点、技術採用のロードマップに関する微妙な視点が得られました。これらの聞き取り調査を補足するため、システム・インテグレーターと保守プロバイダーに構造化調査を実施し、ユーザー満足度、信頼性ベンチマーク、アップグレードの軌道を定量化しました。

重要動向に関する結論を導き出す戦術通信の利害関係者と意思決定者にとっての戦略的重要事項と将来の展望

進化する戦術通信環境は、プロバイダーとエンドユーザーの双方に俊敏性、革新性、戦略的先見性を要求しています。デジタルアーキテクチャが主流になるにつれ、ソフトウェア定義無線、高度なネットワーク管理ツール、サイバーセキュリティプロトコルの統合が、次世代のミッションクリティカルな接続性を定義することになります。同時に、関税の調整や規制の枠組みなど、変化する政策状況は、サプライチェーンの力学を再形成し、調達戦略に影響を与えています。

目次

第1章 序文

第2章 調査手法

第3章 エグゼクティブサマリー

第4章 市場の概要

第5章 市場力学

• 競合する戦術環境における分散型データ処理のためのエッジコンピューティングデバイスの台頭
• リアルタイムの戦場認識のためのマルチドメイン統合通信プラットフォームの採用
• 5Gネットワークの統合により、超低遅延のミッションクリティカルな通信が可能に
• 動的周波数管理のためのコグニティブ機能を備えたソフトウェア定義無線の導入が拡大
• 安全なアドホック兵士通信のための暗号化メッシュネットワークプロトコルの進歩
• 予防的対応のための戦術的通信ネットワークにおけるAIを活用した脅威検出の出現
• 衛星ブロードバンドコンステレーションの拡張により、見通し外でも強靭な接続を実現

第6章 市場洞察

• ポーターのファイブフォース分析
• PESTEL分析

第7章 米国の関税の累積的な影響2025

第8章 戦術通信市場：コンポーネント別

• ハードウェア
  • アクセサリー
  • ラジオ
  • リピーター
  • ターミナル
• ソフトウェアソリューション
  • コマンド＆コントロールソフトウェア
  • ネットワーク管理ソフトウェア

第9章 戦術通信市場：展開モード別

• 固定ネットワーク
• モバイルネットワーク
• ポータブルネットワーク

第10章 戦術通信市場：技術別

• アナログ
• デジタル

第11章 戦術通信市場：最終用途別

• 防衛
  • 電子戦
  • 監視と偵察
• 公安
  • 救急医療サービス
  • 消防署
• 交通機関
  • 航空宇宙
  • 陸上輸送
  • 海事
• ユーティリティ
  • 電気
  • 石油・ガス
  • 給水

第12章 南北アメリカの戦術通信市場

• 米国
• カナダ
• メキシコ
• ブラジル
• アルゼンチン

第13章 欧州・中東・アフリカの戦術通信市場

• 英国
• ドイツ
• フランス
• ロシア
• イタリア
• スペイン
• アラブ首長国連邦
• サウジアラビア
• 南アフリカ
• デンマーク
• オランダ
• カタール
• フィンランド
• スウェーデン
• ナイジェリア
• エジプト
• トルコ
• イスラエル
• ノルウェー
• ポーランド
• スイス

第14章 アジア太平洋地域の戦術通信市場

• 中国
• インド
• 日本
• オーストラリア
• 韓国
• インドネシア
• タイ
• フィリピン
• マレーシア
• シンガポール
• ベトナム
• 台湾

第15章 競合情勢

• 市場シェア分析, 2024
• FPNVポジショニングマトリックス, 2024
• 競合分析
  • Airbus SE
  • BAE Systems plc
  • Barrett Communications Pty Ltd.
  • Bittium Corporation
  • Codan Limited
  • EFJohnson Technologies by JVCKENWOOD Group
  • Elbit Systems Ltd.
  • Frequentis AG
  • General Dynamics Corporation
  • Hytera Communications Corporation Limited
  • Indra Sistemas, S.A.
  • Iridium Communications Inc.
  • L3Harris Technologies, Inc.
  • Leonardo SpA
  • Lockheed Martin Corporation
  • Motorola Solutions, Inc.
  • Northrop Grumman Corporation
  • QinetiQ plc
  • Raytheon Technologies Corporation
  • Rohde & Schwarz GmbH & Co. KG
  • Tait Communications Limited
  • Thales S.A.
  • Ultra Electronics Holdings plc
  • ViaSat by Targa Telematics S.p.A..

第16章 リサーチAI

第17章 リサーチ統計

第18章 リサーチコンタクト

第19章 リサーチ記事

第20章 付録

The Tactical Communications Market was valued at USD 10.00 billion in 2024 and is projected to grow to USD 11.21 billion in 2025, with a CAGR of 12.60%, reaching USD 20.39 billion by 2030.

Unveiling the Critical Role of Tactical Communications in Modern Operations and Empowering Strategic Decision Makers with Actionable Insights for Rapid Response

At a time when operational agility and secure connectivity are paramount, tactical communications systems stand at the forefront of mission-critical infrastructure. Military units, emergency responders, and critical utility operators increasingly rely on next-generation networks that deliver real-time voice, data, and situational awareness under demanding conditions. This section introduces the key drivers shaping the tactical communications arena and frames the overarching themes explored throughout this report.

The convergence of digital transformation, evolving threat landscapes, and a renewed emphasis on interoperability has catalyzed rapid change across hardware and software ecosystems. Traditional analog networks are yielding to software-defined radios and network management platforms that enable dynamic spectrum allocation and improved command and control. Simultaneously, global security priorities and public safety modernization initiatives drive investment in resilient architectures that can withstand cyber threats and physical disruptions. Against this backdrop, understanding market dynamics and strategic imperatives is essential for decision makers who seek to maintain a competitive edge.

Subsequent sections delve into transformative shifts reshaping industry landscapes, assess policy-driven impacts on supply chains, and uncover segmentation and regional insights that highlight growth pockets and potential challenges. Leadership profiles, actionable recommendations, and a transparent research methodology complement these analyses, culminating in a comprehensive conclusion that underscores strategic imperatives for stakeholders navigating this dynamic domain.

Identifying Major Transformative Shifts Reshaping the Tactical Communications Landscape Across Technology Strategy and Operational Domains

Technical and strategic imperatives are converging to reshape the tactical communications landscape in profound ways. Software defined architectures have emerged as a cornerstone of modernization efforts, enabling seamless integration of voice, video, and data across disparate networks. This shift has accelerated the adoption of command and control platforms that leverage real-time analytics, artificial intelligence, and machine learning to optimize resource allocation and enhance situational awareness. As a result, interoperability between legacy and emerging systems has become a critical priority, driving demand for open standards and modular components.

Geopolitical dynamics also play a pivotal role in catalyzing change. Heightened regional tensions and asymmetric threats have spurred governments to prioritize rapid response capabilities and spectrum resilience. In parallel, joint exercises and multinational operations underscore the need for harmonized communication protocols that transcend national boundaries. This has prompted a surge in collaborative research initiatives and strategic partnerships among defense contractors, technology vendors, and academic institutions.

Moreover, the evolution of network management solutions has empowered end users to monitor, configure, and secure communications infrastructures with unprecedented granularity. Automated fault detection, predictive maintenance, and remote diagnostics are becoming commonplace, reducing downtime and lifecycle costs. Together, these technological and strategic drivers are orchestrating a transformative wave that redefines tactical communications from isolated hardware assemblies to integrated ecosystems focused on agility, security, and operational excellence.

These developments underscore a broader trend toward convergence of information and physical domains, where data-driven decision making is as critical as robust RF performance. The interplay between cybersecurity requirements and real-time connectivity further amplifies the complexity of modern deployments, compelling stakeholders to adopt holistic approaches that balance functional capabilities with risk mitigation. Through this lens, the ensuing analysis illuminates the key shifts that will chart the future trajectory of tactical communications systems.

Assessing the Cumulative Impact of United States Tariff Policies on the Tactical Communications Supply Chain and Operational Costs in 2025

In 2025, the cumulative effect of United States tariff policies on tactical communications components and subsystems has introduced a complex array of cost considerations and supply chain challenges. Tariffs on imported semiconductors, RF modules, and auxiliary electronics have elevated procurement costs, prompting original equipment manufacturers and system integrators to reassess their sourcing strategies. While these measures aim to bolster domestic production and encourage local innovation, they have concurrently driven some organizations to explore alternative supplier networks in allied markets.

Manufacturers have responded by accelerating efforts to qualify new vendor relationships in regions less affected by tariff constraints. This shift has engendered a reevaluation of long-standing supply chains and an increased emphasis on nearshoring and strategic stockpiling. Transitioning to domestically produced or tariff-exempt components often necessitates rigorous testing and certification processes, which can extend development timelines and inflate project budgets in the short term. Consequently, program managers are balancing the dual imperatives of compliance and deployment readiness.

Despite these challenges, the policy landscape has also catalyzed investments in local manufacturing capabilities and research collaborations focused on next-generation radio frequency technologies. Incentives for domestic production have led to the expansion of capacity for waveguide assemblies, filters, and antenna subsystems. Furthermore, tier one providers are leveraging joint ventures to mitigate tariff impacts and diversify risk. This nuanced interplay between protectionist measures and innovation incentives is redefining cost structures, compelling industry players to devise resilient strategies that reconcile policy objectives with performance imperatives.

Looking ahead, organizations that proactively engage with policy forums and invest in modular design principles will be best positioned to navigate evolving tariff regimes. Emphasizing interoperability and component flexibility can buffer the effects of future trade actions, fostering sustainable pathways for capability enhancement without sacrificing budgetary discipline.

Revealing Key Segmentation Insights Across Components Deployment Modes Technologies and End Use Applications Driving Tactical Communications Demand

An in-depth examination of market segmentation reveals distinct trends across component portfolios, deployment modalities, technology platforms, and end use applications. In the component domain, hardware solutions encompass a diverse array of accessories, radios, repeaters, and terminals. These tangible assets form the backbone of tactical networks, providing ruggedized performance under extreme conditions. Complementing this ecosystem, software solutions include advanced command and control platforms alongside network management tools that enable centralized oversight and dynamic configuration.

Deployment modes introduce another layer of complexity, spanning fixed network installations, mobile network infrastructures, and portable network configurations. Fixed networks often serve as centralized hubs, offering high throughput and robust security features. Mobile deployments, by contrast, leverage vehicle-mounted or airborne nodes to extend coverage across fluid operational theaters, while portable systems ensure rapid on-demand connectivity for small teams or remote outposts. Each mode presents unique logistical considerations and performance parameters.

At the technology level, the transition from analog to digital systems has unlocked new dimensions of spectral efficiency and encryption capabilities. Digital voice and data protocols facilitate clear communication in contested environments and support the integration of multimedia applications. End use analysis highlights four primary domains: defense, public safety, transportation, and utilities. Within defense operations, electronic warfare and surveillance and reconnaissance missions demand secure, low-latency links that can resist jamming. Public safety agencies prioritize emergency medical services and fire service communication networks designed for reliability during crises. Transportation stakeholders rely on aerospace, land transport, and maritime systems to coordinate fleet operations and ensure passenger safety. Utilities require specialized solutions for electricity, oil and gas, and water distribution networks that monitor assets and respond swiftly to system anomalies.

Together, these segmentation layers provide a granular understanding of demand drivers and inform targeted strategies for product development and market engagement.

Highlighting Key Regional Insights into Americas Europe Middle East Africa and Asia Pacific Tactical Communications Dynamics and Market Drivers

Regional dynamics exert a profound influence on tactical communications investments and technology adoption. In the Americas, defense modernization initiatives and public safety upgrades in North America coexist with growing demand for secure networks in Latin American jurisdictions. Procurement cycles in the United States are characterized by stringent certification standards and budgetary cycles tied to defense appropriations, whereas emerging markets in South America focus on border security and disaster response capabilities.

Across Europe, the Middle East, and Africa, a diverse array of geopolitical challenges shapes spending priorities. European nations emphasize interoperability within NATO frameworks and civilian emergency response systems, leading to harmonized standards and multinational procurement programs. In the Middle East, significant investments in border surveillance and electronic warfare are driven by regional security imperatives, while African markets are gradually integrating tactical communications to address humanitarian missions, anti-poaching initiatives, and infrastructure protection.

The Asia Pacific region presents a dynamic tapestry of market maturity levels. Established economies in East Asia pursue digital network upgrades and interoperability with allied forces, prioritizing low-observable communications and cyber-resilient architectures. South Asian nations, balancing budget constraints with security requirements, explore cost-effective portable solutions for border patrol and disaster relief. Meanwhile, Oceania's vast territories necessitate satellite-enhanced networks and mesh configurations to maintain connectivity across remote landscapes. The interplay of defense spending trends, regulatory frameworks, and local manufacturing capacities underscores the multifaceted nature of regional market opportunities.

Mapping Strategic Company Movements and Competitive Dynamics Among Leading Tactical Communications Providers Shaping Innovation Pathways

Leading companies in the tactical communications sector are charting diverse strategies to capture emerging opportunities and address evolving user requirements. Established defense contractors are integrating software defined radio capabilities into legacy platforms, while technology disruptors are focusing on cloud-native command and control solutions that promise rapid feature deployment and scalability. Strategic partnerships and collaborative ventures have become instrumental in pooling expertise across RF engineering, cybersecurity, and systems integration.

Several providers are prioritizing next-generation waveform development and encryption technologies to counter sophisticated threat vectors. Others are investing in artificial intelligence modules that automate spectrum management and anomaly detection, thereby enhancing network resilience and operational efficiency. In parallel, firms are adopting modular design approaches that facilitate seamless upgrades and interoperability with allied communication standards.

Mergers and acquisitions remain a prominent theme, as larger corporations seek to augment their capabilities with niche technology firms specializing in areas such as satellite communications, unmanned systems integration, and resilient mesh networking. Joint research programs between industry and academic institutions are also gaining traction, particularly in the development of advanced materials for ruggedized hardware and low-probability-of-intercept waveforms. These collective efforts signal a competitive landscape defined by innovation velocity, collaborative ecosystems, and a relentless focus on mission-critical performance.

As a result, market leadership is increasingly contingent upon the ability to deliver end-to-end solutions that combine high-performance hardware, intelligent software, and comprehensive support services. Vendors that can demonstrate proven reliability under operational stress, rapid delivery schedules, and lifecycle cost advantages are well positioned to secure long-term contracts with military, public safety, and critical infrastructure operators.

Delivering Actionable Recommendations for Industry Leaders to Navigate Disruption Enhance Resilience and Capitalize on Tactical Communications Trends

Industry leaders must adopt a forward-looking mindset to capitalize on disruption and sustain competitive advantage in tactical communications. Embracing open architecture standards will facilitate interoperability across platforms and streamline integration with allied systems. By prioritizing modular hardware and software frameworks, organizations can accelerate upgrade cycles and reduce obsolescence risks, thereby preserving both time and budgetary resources.

Diversification of supply chains is essential to mitigate geopolitical and tariff-related uncertainties. Cultivating relationships with suppliers in multiple regions and qualifying alternative component sources will enhance resilience and prevent bottlenecks. Concurrently, fostering strategic alliances with academic partners and research institutions can accelerate the development of advanced signal processing algorithms, secure waveforms, and next-generation network management tools.

Investment in cybersecurity training and embedded security features is imperative, given the escalating threat of cyber-physical interference and data breaches. Developing comprehensive security protocols and conducting regular penetration testing will safeguard communications integrity and build end user confidence. Additionally, exploring emerging technologies such as edge computing and artificial intelligence-driven analytics can unlock new operational efficiencies, enabling real-time decision support and proactive maintenance across dispersed network nodes.

Finally, aligning product roadmaps with regional market priorities and end use requirements will optimize resource allocation and revenue potential. Organizations that engage early with end users to co-design tailored solutions, while maintaining robust logistics support and service offerings, will secure long-term contracts and reinforce their position as trusted partners in high-stakes operational environments.

Detailing a Robust Research Methodology Combining Primary Interviews Secondary Data Validation and Analytical Frameworks for Unbiased Tactical Communications Insights

This research is underpinned by a multi-faceted methodology designed to deliver robust, unbiased insights into the tactical communications landscape. Primary data was collected through in-depth interviews with military communications officers, emergency response coordinators, and critical infrastructure operators. These conversations yielded nuanced perspectives on operational requirements, pain points, and technology adoption roadmaps. Supplementing these interviews, structured surveys were administered to system integrators and maintenance providers to quantify user satisfaction, reliability benchmarks, and upgrade trajectories.

Secondary research encompassed a comprehensive review of publicly available defense procurement records, regulatory filings, and technical white papers. Patent analysis and academic publications provided additional depth on emerging waveform technologies, cybersecurity frameworks, and network management innovations. Vendor press releases and conference proceedings offered real-time insights into product launches, strategic partnerships, and research collaborations.

Data triangulation techniques were employed, cross-referencing primary feedback with secondary findings to validate conclusions and ensure consistency. A series of expert panel workshops facilitated collaborative validation, refining the analytical frameworks and stress-testing key assumptions. Quantitative modeling and qualitative assessments were integrated to map market dynamics, evaluate risk factors, and identify strategic inflection points. Through this rigorous approach, the resulting report presents a balanced, evidence-based view of tactical communications trends and opportunities.

Drawing Conclusions on Critical Trends Strategic Imperatives and Future Outlook for Tactical Communications Stakeholders and Decision Makers

The evolving tactical communications environment demands agility, innovation, and strategic foresight from both providers and end users. As digital architectures become the norm, the integration of software defined radios, advanced network management tools, and cybersecurity protocols will define the next generation of mission-critical connectivity. Simultaneously, shifting policy landscapes, such as tariff adjustments and regulatory frameworks, are reshaping supply chain dynamics and influencing procurement strategies.

Regional nuances highlight the importance of tailored solutions, with each geography presenting unique operational challenges and investment priorities. The segmentation analysis underscores a diverse array of applications-from electronic warfare platforms to emergency medical response networks-each with distinct performance and reliability requirements. Competitive dynamics among leading firms reveal a landscape marked by collaborative research, mergers, and a relentless drive toward modular, open ecosystem architectures.

Looking forward, stakeholders who embrace flexible design principles, diversify sourcing strategies, and maintain proactive engagement with policy developments will be best equipped to navigate disruption and capitalize on emerging opportunities. The synthesis of strategic recommendations, company insights, and methodological rigor presented in this report provides a comprehensive blueprint for decision makers seeking to enhance operational readiness and secure competitive advantage in the dynamic tactical communications domain

Table of Contents

1. Preface

• 1.1. Objectives of the Study
• 1.2. Market Segmentation & Coverage
• 1.3. Years Considered for the Study
• 1.4. Currency & Pricing
• 1.5. Language
• 1.6. Stakeholders

2. Research Methodology

• 2.1. Define: Research Objective
• 2.2. Determine: Research Design
• 2.3. Prepare: Research Instrument
• 2.4. Collect: Data Source
• 2.5. Analyze: Data Interpretation
• 2.6. Formulate: Data Verification
• 2.7. Publish: Research Report
• 2.8. Repeat: Report Update

3. Executive Summary

4. Market Overview

• 4.1. Introduction
• 4.2. Market Sizing & Forecasting

5. Market Dynamics

• 5.1. Rise of edge computing devices for decentralized data processing in contested tactical environments
• 5.2. Adoption of multi-domain integrated communications platforms for real-time battlefield awareness
• 5.3. Integration of 5G networks to enable ultra-low latency mission-critical communications
• 5.4. Growing deployment of software-defined radios with cognitive capabilities for dynamic frequency management
• 5.5. Advances in encrypted mesh networking protocols for secure ad hoc soldier communications
• 5.6. Emergence of AI-powered threat detection in tactical communication networks for proactive responses
• 5.7. Expansion of satellite broadband constellations to provide resilient beyond line-of-sight connectivity

6. Market Insights

• 6.1. Porter's Five Forces Analysis
• 6.2. PESTLE Analysis

7. Cumulative Impact of United States Tariffs 2025

8. Tactical Communications Market, by Component

• 8.1. Introduction
• 8.2. Hardware
  • 8.2.1. Accessories
  • 8.2.2. Radios
  • 8.2.3. Repeaters
  • 8.2.4. Terminals
• 8.3. Software Solutions
  • 8.3.1. Command & Control Software
  • 8.3.2. Network Management Software

9. Tactical Communications Market, by Deployment Mode

• 9.1. Introduction
• 9.2. Fixed Network
• 9.3. Mobile Network
• 9.4. Portable Network

10. Tactical Communications Market, by Technology

• 10.1. Introduction
• 10.2. Analog
• 10.3. Digital

11. Tactical Communications Market, by End Use

• 11.1. Introduction
• 11.2. Defense
  • 11.2.1. Electronic Warfare
  • 11.2.2. Surveillance & Reconnaissance
• 11.3. Public Safety
  • 11.3.1. Emergency Medical Services
  • 11.3.2. Fire Service
• 11.4. Transportation
  • 11.4.1. Aerospace
  • 11.4.2. Land Transport
  • 11.4.3. Maritime
• 11.5. Utilities
  • 11.5.1. Electricity
  • 11.5.2. Oil & Gas
  • 11.5.3. Water Distribution

12. Americas Tactical Communications Market

• 12.1. Introduction
• 12.2. United States
• 12.3. Canada
• 12.4. Mexico
• 12.5. Brazil
• 12.6. Argentina

13. Europe, Middle East & Africa Tactical Communications Market

• 13.1. Introduction
• 13.2. United Kingdom
• 13.3. Germany
• 13.4. France
• 13.5. Russia
• 13.6. Italy
• 13.7. Spain
• 13.8. United Arab Emirates
• 13.9. Saudi Arabia
• 13.10. South Africa
• 13.11. Denmark
• 13.12. Netherlands
• 13.13. Qatar
• 13.14. Finland
• 13.15. Sweden
• 13.16. Nigeria
• 13.17. Egypt
• 13.18. Turkey
• 13.19. Israel
• 13.20. Norway
• 13.21. Poland
• 13.22. Switzerland

14. Asia-Pacific Tactical Communications Market

• 14.1. Introduction
• 14.2. China
• 14.3. India
• 14.4. Japan
• 14.5. Australia
• 14.6. South Korea
• 14.7. Indonesia
• 14.8. Thailand
• 14.9. Philippines
• 14.10. Malaysia
• 14.11. Singapore
• 14.12. Vietnam
• 14.13. Taiwan

15. Competitive Landscape

• 15.1. Market Share Analysis, 2024
• 15.2. FPNV Positioning Matrix, 2024
• 15.3. Competitive Analysis
  • 15.3.1. Airbus SE
  • 15.3.2. BAE Systems plc
  • 15.3.3. Barrett Communications Pty Ltd.
  • 15.3.4. Bittium Corporation
  • 15.3.5. Codan Limited
  • 15.3.6. EFJohnson Technologies by JVCKENWOOD Group
  • 15.3.7. Elbit Systems Ltd.
  • 15.3.8. Frequentis AG
  • 15.3.9. General Dynamics Corporation
  • 15.3.10. Hytera Communications Corporation Limited
  • 15.3.11. Indra Sistemas, S.A.
  • 15.3.12. Iridium Communications Inc.
  • 15.3.13. L3Harris Technologies, Inc.
  • 15.3.14. Leonardo SpA
  • 15.3.15. Lockheed Martin Corporation
  • 15.3.16. Motorola Solutions, Inc.
  • 15.3.17. Northrop Grumman Corporation
  • 15.3.18. QinetiQ plc
  • 15.3.19. Raytheon Technologies Corporation
  • 15.3.20. Rohde & Schwarz GmbH & Co. KG
  • 15.3.21. Tait Communications Limited
  • 15.3.22. Thales S.A.
  • 15.3.23. Ultra Electronics Holdings plc
  • 15.3.24. ViaSat by Targa Telematics S.p.A..

16. ResearchAI

17. ResearchStatistics

18. ResearchContacts

19. ResearchArticles

20. Appendix