鉄道管理システムの世界市場規模：ソリューション別、サービス別、地域別、範囲および予測

鉄道管理システムの市場規模と予測

鉄道管理システムの市場規模は、2023年には464億米ドルと評価され、2024年から2031年の予測期間においてCAGR 9.41%で、2031年には952億8,000万米ドルに達すると予測されます。

鉄道管理システムは、鉄道運行の効率、安全性、信頼性を高めるために設計された統合ソリューションと定義されます。このシステムは、スケジューリング、監視、通信など、鉄道管理のさまざまな側面を合理化するために先進技術を活用しています。

鉄道管理システムは、交通管理、インフラ管理、エネルギー管理など、鉄道運行のさまざまな分野で応用されています。列車運行の調整、インフラの保守、エネルギー使用の最適化は、これらのシステムによって促進されます。

鉄道管理システムの主な用途は、ネットワーク全体で列車の安全かつ効率的な移動を確保することです。列車の位置、速度、ダイヤをリアルタイムで監視することで、事故や遅延を防ぐことができます。

リアルタイムで最新情報を提供し、定時性を向上させることで、鉄道管理システムを通じて旅客体験の向上が達成されます。リソースの効率的な管理と予知保全機能も提供され、運行コストとダウンタイムが削減されます。

鉄道管理システムの将来の展望には、メンテナンスの必要性を予測し、運行効率を最適化するための人工知能と機械学習の統合が含まれます。また、スマート交通ネットワークの開発支援も期待されており、鉄道運行の接続性と持続可能性が強化されます。

世界の鉄道管理システム市場力学

主な市場促進要因

効率性と安全性の向上に対する需要の高まり：旅客と貨物の輸送量の急増により、鉄道ネットワーク内の運用効率と安全性の向上が急務となっています。これに対処するため、鉄道管理システム（RMS）が不可欠となっています。これらのシステムは集中制御を提供し、リアルタイムのデータ分析とリソースの最適配分を可能にします。RMSを統合することで、鉄道事業者はより安全で効率的な運行を実現し、事故のリスクを低減し、サービス全体の信頼性を向上させることができます。

政府のイニシアティブとインフラの近代化：世界各国の政府は、鉄道インフラの近代化にますます投資しています。こうした投資は、開発プロジェクトの要として、先進的なRMSソリューションの統合を優先しています。その主な目的は、ネットワーク容量の増強、混雑の緩和、鉄道システム全体の性能向上です。こうした取り組みは、公共交通インフラを近代化する広範な戦略の一環であることが多く、堅牢で効率的、かつ将来に備えた鉄道ネットワークの開発へのコミットメントを反映しています。

自動化とデジタル技術の採用拡大：鉄道業界では、自動化とデジタル技術の導入が急速に進んでいます。自動列車制御やクラウド・コンピューティングなどの主要な革新技術は、この変革の最前線にあります。これらの技術は、多くの作業を自動化し、データ主導の意思決定を促進し、業務の可視性を高める。これらの先端技術を活用したRMSの採用は、鉄道運行を変革し、より信頼性が高く、効率的で、リアルタイムの状況に対応できるものにしています。

持続可能性とエネルギー効率の重視：環境の持続可能性は、鉄道事業者にとって重要な焦点になりつつあります。鉄道運行の環境フットプリントを最小限に抑えることがますます重視されています。RMSソリューションは、エネルギー効率の高い運行を可能にすることで、この文脈において極めて重要な役割を果たします。列車ダイヤと燃料消費を最適化することで、RMSは鉄道システム全体のエネルギー使用量と排出量の削減に大きく貢献します。これは、環境目標をサポートするだけでなく、気候変動と闘い、持続可能な開発を促進するための世界の取り組みとも一致します。

相互接続性とシームレスな移動に対する需要の高まり：現代の乗客は、特に異なる鉄道網を移動する際に、シームレスで便利な旅行体験を期待しています。RMSソリューションは、さまざまな鉄道システム間で堅牢なデータ交換と同期オペレーションを可能にすることで、これを促進します。この相互接続性により、旅客はスムーズで手間のかからない旅を楽しむことができ、旅程計画やリアルタイム更新の利便性が向上します。さまざまな鉄道業務を統合し、調和させるRMSの能力は、シームレスな旅行体験に対する旅行者の期待の高まりに応える鍵となります。

主な課題

初期投資と統合コストの高さ新しい鉄道管理システム（RMS）の導入には多額の初期投資が必要であり、多くの鉄道事業者にとって大きな経済的負担となります。このコストには、先進的なRMS技術の購入だけでなく、これらのシステムを既存のインフラと統合するための費用も含まれます。現在も使用されているレガシーシステムは、最新のRMSソリューションとの互換性を確保するために、しばしば大規模で複雑な統合プロセスを必要とします。この統合は技術的にもコスト的にも困難であり、システムのアップグレードを目指す事業者にとっては大きなハードルとなります。

サイバーセキュリティの脅威とデータセキュリティの懸念：鉄道管理システムのデジタル化が進むにつれ、サイバー攻撃に対する脆弱性が増しています。RMSは、リアルタイムの列車位置、時刻表、保守記録などの機密性の高い運行データを扱うため、サイバー犯罪者にとって格好の標的となっています。このデータを保護し、鉄道運行の完全性と信頼性を維持するためには、強固なサイバーセキュリティ対策を確保することが重要です。事業者は、進化するサイバー脅威を防御し、侵害からシステムを守るために、高度なサイバーセキュリティ・プロトコル、継続的モニタリング、迅速な対応戦略に投資しなければならないです。

標準化技術の欠如と相互運用性の問題：鉄道業界は、異なるRMSソリューション間で標準化された技術がないため、大きな課題に直面しています。この標準化の欠如は、特に異なるベンダーのシステムを統合する際の相互運用性の問題につながります。このような問題は、鉄道ネットワーク全体におけるシームレスなデータ交換と調整を妨げ、全体的な効率とパフォーマンスに影響を及ぼす可能性があります。RMS技術の統一された枠組みがないため、まとまりのある相互接続された鉄道システムを構築する取り組みが複雑になり、互換性と統合の課題に対処するための追加的な資源と時間が必要になります。

実装と保守のための熟練労働力：高度なRMS技術の導入と保守には、高度な技能を持つ労働力が必要です。RMSの効果的な運用には、システム統合、データ分析、サイバーセキュリティ、メンテナンスなどの分野における専門知識が不可欠です。しかし、そのような有能な労働力の確保は、特に教育や訓練の機会が技術の進歩に追いついていない新興経済国においては、限られている可能性があります。鉄道事業者は、必要な専門知識を持つ人材の確保と維持が困難な状況に直面する可能性があり、RMSソリューションの導入と継続的なメンテナンスの成功に影響を与えます。

規制とコンプライアンス要件：鉄道管理システムは、規制機関によって課される厳しい規制やコンプライアンス要件の対象となります。これらの基準は、鉄道運行の安全性、信頼性、効率性を確保するために設計されています。これらの規制要件を遵守することは、RMSの導入と保守に複雑な階層を追加することになります。鉄道事業者は包括的な規制状況を乗り切らなければならず、多くの場合、コンプライアンスを確保するために、厳格なテスト、文書化、継続的な監視が必要となります。これらの基準を満たすことは不可欠ですが、リソース集約的で時間がかかるため、システムの近代化を目指す鉄道事業者にとってさらなる課題となります。

主要動向：

クラウドベースの鉄道管理システム：クラウドベースの鉄道管理システム（RMS）の採用は、その多くの利点から急速に増加しています。これらのシステムは拡張性があり、鉄道事業者は多額のインフラ投資をせずに機能を拡張できます。クラウドベースのソリューションでは、オンプレミスの大規模なハードウェアやメンテナンスの必要性が削減されることが多いため、費用対効果も利点のひとつです。さらに、クラウドベースのRMSでは、システムのアップデートがより簡単かつ頻繁に行われるため、鉄道事業者は常に最新の機能やセキュリティの強化にアクセスすることができます。これらのソリューションにより、どこからでもリアルタイムのデータアクセスと集中管理が可能になり、業務効率と応答性が向上します。

ビッグデータ解析とAIの採用：RMSソリューションへのビッグデータ解析と人工知能（AI）の統合は、鉄道業務を変革しつつあります。膨大な量の運行データを分析することで、AIを活用したアナリティクスは、意思決定プロセスを強化する貴重な洞察を提供することができます。これらのテクノロジーは、機器が故障しそうな時期を予測することで保守スケジュールを最適化し、予期せぬ故障を防ぐ。また、AIを活用したソリューションは、人間のオペレーターが見逃す可能性のあるパターンや動向を特定することで、ネットワーク全体の効率を向上させ、鉄道システムのより情報に基づいたプロアクティブな管理につなげることができます。

予知保全の重視：予知保全は、現代の鉄道運行の要となりつつあります。センサーデータとAIを活用することで、これらの戦略は潜在的な機器の故障を早期に発見することを可能にします。問題が深刻化する前に特定することで、予知保全はダウンタイムを最小限に抑え、保全コストを削減します。列車やインフラ部品に設置されたセンサーが継続的に状態を監視し、メンテナンスが必要な時期を予測するAIアルゴリズムにデータを供給します。このプロアクティブなアプローチは、信頼性を高めるだけでなく、鉄道資産の寿命を延ばします。

IoTおよびセンサー技術との統合：鉄道インフラにおけるモノのインターネット（IoT）機器やセンサーの普及は、データの収集・活用方法に革命をもたらしています。これらの技術は、列車、線路、その他の資産に関する膨大な量のリアルタイム情報を生成します。RMSソリューションは、IoTやセンサー技術との統合を進め、このデータを意思決定や運行管理の改善に活用しています。リアルタイム・モニタリングにより、運行管理者は問題に迅速に対応し、列車ダイヤを最適化し、鉄道運行の全体的な安全性と効率を高めることができます。

Open-RANアーキテクチャの出現：オープン・ラジオ・アクセス・ネットワーク（Open-RAN）アーキテクチャは、鉄道業界で大きな関心を集めています。これらのアーキテクチャは、異なるベンダーの機器間の相互運用性を促進し、柔軟性を提供し、単一のサプライヤーへの依存を低減します。Open-RANは、RMSコンポーネントの市場競争力を高め、オープンスタンダードによるイノベーションを促進することで、コスト削減の可能性があります。このアプローチは、よりモジュール化され適応性の高い鉄道管理エコシステムを構築するという業界の目標に合致しています。

ユーザー中心設計の重視：最新のRMSソリューションは、ユーザーエクスペリエンスに重点を置いて設計されるようになってきています。直感的なインターフェイスとユーザー中心の機能は、運転士や保守要員のシステムの使いやすさを向上させます。複雑なプロセスを簡素化し、アクセスしやすい方法で情報を表示することで、ユーザー中心設計は効率的な意思決定を促進し、システムの採用を後押しします。このように使いやすさを重視することで、先進的なRMS技術の利点が十分に発揮され、オペレーターは鉄道運行を改善するためにこれらのツールをより簡単に活用できるようになります。

目次

第1章 世界の鉄道管理システム市場のイントロダクション

• 市場概要
• 調査範囲
• 前提条件

第2章 エグゼクティブサマリー

第3章 VERIFIED MARKET RESEARCHの調査手法

• データマイニング
• バリデーション
• 一次資料
• データソース一覧

第4章 世界の鉄道管理システム市場展望

• 概要
• 市場力学
  • 促進要因
  • 抑制要因
  • 機会
• ポーターのファイブフォースモデル
• バリューチェーン分析

第5章 鉄道管理システムの世界市場：ソリューション別

• イントロダクション
• 鉄道運行管理システム
• 鉄道交通管理システム
• 鉄道資産管理システム
• 鉄道制御システム

第6章 鉄道管理システムの世界市場：サービス別

• イントロダクション
• コンサルティング
• システム統合と展開
• サポートと保守

第7章 世界の鉄道管理システム市場：地域別

• 概要
• 北米
  • 米国
  • カナダ
  • メキシコ
• 欧州
  • ドイツ
  • 英国
  • フランス
  • その他欧州
• アジア太平洋
  • 中国
  • 日本
  • インド
  • その他アジア太平洋地域
• 世界のその他の地域
  • 中東・アフリカ
  • 南米

第8章 世界の鉄道管理システム市場：競合情勢

• 概要
• 各社の市場ランキング
• 主な発展戦略

第9章 企業プロファイル

• Amadeus
• Alstom
• Ansaldo
• Cisco
• Bombardier
• DXC Technology
• Eurotech
• Hitachi
• IBM
• ABB

第10章 付録

• 関連調査

Railway Management System Market Size And Forecast

Railway Management System Market size was valued to be USD 46.4 Billion in the year 2023 and it is expected to reach USD 95.28 Billion in 2031, at a CAGR of 9.41% over the forecast period of 2024 to 2031.

A railway management system is defined as an integrated solution designed to enhance the efficiency, safety, and reliability of railway operations. Advanced technologies are utilized by this system to streamline various aspects of railway management, including scheduling, monitoring, and communication.

Railway management systems are applied in different segments of railway operations, such as traffic management, infrastructure management, and energy management. Coordination of train movements, maintenance of infrastructure, and optimization of energy usage are facilitated by these systems.

The primary use of railway management systems is to ensure the safe and efficient movement of trains across the network. Real-time monitoring of train locations, speeds, and schedules is enabled to prevent accidents and delays.

Enhancement of passenger experience is achieved through railway management systems by providing real-time updates and improving punctuality. Efficient management of resources and predictive maintenance capabilities are also offered, reducing operational costs and downtime.

The future scope for railway management systems includes the integration of artificial intelligence and machine learning to predict maintenance needs and optimize operational efficiency. Support for the development of smart transportation networks is also anticipated, enhancing connectivity and sustainability in railway operations.

Global Railway Management System Market Dynamics

The key market dynamics that are shaping the global railway management system market include:

Key Market Drivers:

Rising Demand for Enhanced Efficiency and Safety: The surge in passenger and freight traffic has created a pressing need for heightened operational efficiency and safety within railway networks. To address this, Railway Management Systems (RMS) have become indispensable. These systems offer centralized control, allowing for real-time data analysis and optimized resource allocation. By integrating RMS, railway operators can achieve significantly safer and more efficient operations, reducing the risk of accidents and improving overall service reliability.

Government Initiatives and Infrastructure Modernization: Governments worldwide are increasingly investing in the modernization of railway infrastructure. These investments prioritize the integration of advanced RMS solutions as a cornerstone of development projects. The primary objectives are to enhance network capacity, alleviate congestion, and boost the overall performance of railway systems. Such initiatives are often part of broader strategies to modernize public transportation infrastructure, reflecting a commitment to developing a robust, efficient, and future-ready railway network.

Growing Adoption of Automation and Digital Technologies: The railway industry is witnessing a rapid adoption of automation and digital technologies. Key innovations such as automatic train control and cloud computing are at the forefront of this transformation. These technologies automate numerous tasks, facilitate data-driven decision-making, and enhance operational visibility. The adoption of RMS, powered by these advanced technologies, is transforming railway operations, making them more reliable, efficient, and responsive to real-time conditions.

Focus on Sustainability and Energy Efficiency: Environmental sustainability is becoming a critical focus for railway operators. There is an increasing emphasis on minimizing the environmental footprint of railway operations. RMS solutions play a pivotal role in this context by enabling energy-efficient operations. By optimizing train schedules and fuel consumption, RMS contributes significantly to reducing the overall energy usage and emissions of railway systems. This not only supports environmental goals but also aligns with global efforts to combat climate change and promote sustainable development.

Increasing Demand for Interconnectivity and Seamless Travel: Modern passengers expect a seamless and convenient travel experience, particularly when navigating through different railway networks. RMS solutions facilitate this by enabling robust data exchange and synchronized operations across various railway systems. This interconnectivity ensures that passengers enjoy a smooth and hassle-free journey, with enhanced convenience in journey planning and real-time updates. The ability of RMS to integrate and harmonize different railway operations is key to meeting the growing expectations of travelers for a seamless travel experience.

Key Challenges:

High Initial Investment and Integration Costs: The implementation of new Railway Management Systems (RMS) involves substantial initial investment, which can be a significant financial burden for many railway operators. The costs encompass not only the purchase of advanced RMS technologies but also the expenses related to integrating these systems with existing infrastructure. Legacy systems, which may still be in use, often require extensive and complex integration processes to ensure compatibility with modern RMS solutions. This integration can be both technically challenging and costly, posing a substantial hurdle for operators aiming to upgrade their systems.

Cybersecurity Threats and Data Security Concerns: As railway management systems become increasingly digitized, they are more vulnerable to cyberattacks. RMS handles sensitive operational data, including real-time train locations, schedules, and maintenance records, making them attractive targets for cybercriminals. Ensuring robust cybersecurity measures is critical to protect this data and maintain the integrity and reliability of railway operations. Operators must invest in advanced cybersecurity protocols, continuous monitoring, and rapid response strategies to defend against evolving cyber threats and safeguard their systems from breaches.

Lack of Standardized Technologies and Interoperability Issues: The railway industry faces significant challenges due to the lack of standardized technologies across different RMS solutions. This lack of standardization leads to interoperability issues, particularly when integrating systems from different vendors. Such issues can hinder seamless data exchange and coordination across railway networks, affecting overall efficiency and performance. The absence of a unified framework for RMS technologies complicates efforts to create a cohesive and interconnected railway system, requiring additional resources and time to address compatibility and integration challenges.

Skilled Workforce for Implementation and Maintenance: The deployment and maintenance of advanced RMS technologies necessitate a highly skilled workforce. Specialized knowledge in areas such as system integration, data analysis, cybersecurity, and maintenance is essential for the effective operation of RMS. However, the availability of such a qualified workforce can be limited, especially in emerging economies where educational and training opportunities may not keep pace with technological advancements. Railway operators may face difficulties in recruiting and retaining personnel with the necessary expertise, impacting the successful implementation and ongoing maintenance of RMS solutions.

Regulations and Compliance Requirements: Railway management systems are subject to stringent regulations and compliance requirements imposed by regulatory bodies. These standards are designed to ensure the safety, reliability, and efficiency of railway operations. Adhering to these regulatory requirements adds layers of complexity to the implementation and maintenance of RMS. Railway operators must navigate a comprehensive regulatory landscape, which often involves rigorous testing, documentation, and continuous monitoring to ensure compliance. Meeting these standards is essential but can be resource-intensive and time-consuming, presenting an additional challenge for operators striving to modernize their systems.

Key Trends:

Cloud-Based Railway Management Systems: The adoption of cloud-based Railway Management Systems (RMS) is rapidly increasing due to their numerous benefits. These systems offer scalability, allowing railway operators to expand their capabilities without significant infrastructure investments. Cost-effectiveness is another advantage, as cloud-based solutions often reduce the need for extensive on-premises hardware and maintenance. Additionally, cloud-based RMS provide easier and more frequent system updates, ensuring that operators always have access to the latest features and security enhancements. These solutions enable real-time data access and centralized management from any location, improving operational efficiency and responsiveness.

Adoption of Big Data Analytics and AI: The integration of big data analytics and artificial intelligence (AI) into RMS solutions is transforming railway operations. By analyzing vast amounts of operational data, AI-powered analytics can provide valuable insights that enhance decision-making processes. These technologies optimize maintenance schedules by predicting when equipment is likely to fail, thereby preventing unexpected breakdowns. AI-driven solutions can also improve overall network efficiency by identifying patterns and trends that human operators might miss, leading to more informed and proactive management of railway systems.

Focus on Predictive Maintenance: Predictive maintenance is becoming a cornerstone of modern railway operations. Leveraging sensor data and AI, these strategies allow for the early detection of potential equipment failures. By identifying issues before they escalate, predictive maintenance minimizes downtime and reduces maintenance costs. Sensors placed on trains and infrastructure components continuously monitor their condition, feeding data into AI algorithms that predict when maintenance is needed. This proactive approach not only enhances reliability but also extends the lifespan of railway assets.

Integration with IoT and Sensor Technologies: The proliferation of Internet of Things (IoT) devices and sensors in railway infrastructure is revolutionizing the way data is collected and utilized. These technologies generate vast amounts of real-time information about trains, tracks, and other assets. RMS solutions are increasingly integrating with IoT and sensor technologies to harness this data for improved decision-making and operational control. Real-time monitoring allows operators to respond quickly to issues, optimize train schedules, and enhance the overall safety and efficiency of railway operations.

Emergence of Open-RAN Architectures: Open Radio Access Network (Open-RAN) architectures are attracting significant interest within the railway industry. These architectures promote interoperability between equipment from different vendors, offering flexibility and reducing dependency on single suppliers. Open-RAN can potentially lower costs by enabling a more competitive market for RMS components and fostering innovation through open standards. This approach aligns with the industry's goal of creating a more modular and adaptable railway management ecosystem.

Emphasis on User-Centric Design: Modern RMS solutions are increasingly designed with a strong focus on user experience. Intuitive interfaces and user-centric features enhance the usability of these systems for operators and maintenance personnel. By simplifying complex processes and presenting information in an accessible manner, user-centric design facilitates efficient decision-making and boosts system adoption. This emphasis on usability ensures that the benefits of advanced RMS technologies are fully realized, as operators can more easily leverage these tools to improve railway operations.

Global Railway Management System Market Regional Analysis

Here is a more detailed regional analysis of the global railway management system market:

Asia Pacific

Asia Pacific is substantially dominating the Global Railway Management System Market and is expected to continue its dominance during the forecast period.

Government initiatives are playing a pivotal role, with substantial investments directed towards the expansion and modernization of railway infrastructure, including the development of high-speed rail networks.

These investments are not only enhancing the capacity and efficiency of existing rail systems but are also laying the groundwork for future growth.

Additionally, the region's rapid urbanization and population growth are significantly increasing the demand for efficient transportation solutions.

This surge necessitates the adoption of advanced railway management systems to manage the complex logistics and operational challenges that come with an expanding urban population.

Technological adoption is another critical driver of market growth in Asia Pacific. Countries in the region are at the forefront of integrating cutting-edge technologies such as the Internet of Things (IoT), Artificial Intelligence (AI), and Big Data into their railway management systems.

These technologies are instrumental in enhancing operational efficiency, providing real-time data analytics, and improving the overall passenger experience. For instance, AI-powered predictive maintenance can foresee equipment failures, thereby reducing downtime and maintenance costs, while IoT devices enable real-time monitoring of train conditions and track health.

Furthermore, increased disposable income across the region is contributing to a rise in both passenger and freight rail traffic. As living standards improve, more people are opting for rail travel, and the volume of goods transported by rail is increasing.

This surge in traffic underscores the need for robust and efficient railway management systems to ensure smooth and reliable operations.

The Asia Pacific region is thus on a strong growth trajectory in the railway management system market. With continuous government support, rapid technological advancements, and a strategic focus on overcoming challenges such as aging infrastructure and integration costs, the region is well-positioned to maintain its leadership role in the global RMS market.

The combination of these factors ensures that Asia Pacific will continue to be a key player in the development and implementation of advanced railway management solutions, driving the market forward and setting benchmarks for other regions to follow.

North America:

The North American is expected to be the fastest growing region in the Global Railway Management System throughout the forecast period.

Increased disposable income and rising living standards are leading to a surge in both passenger and freight rail traffic, consequently driving the demand for more efficient management systems.

Rapid urbanization is further intensifying this need, as the growth of cities places immense pressure on existing transportation infrastructure, making the modernization and expansion of railway systems increasingly critical.

This urban expansion necessitates advanced management solutions to ensure that rail networks can accommodate the burgeoning population and maintain smooth operations.

Railroad companies are responding to these pressures by investing heavily in technologies that enhance safety, optimize operations, and reduce costs.

The focus on safety and efficiency is paramount, as companies seek to not only meet but exceed regulatory standards. Government regulations are also playing a significant role, with regulatory bodies mandating the adoption of advanced technologies to ensure the highest levels of safety and operational efficiency in rail operations.

These regulations are pushing railway operators to integrate more sophisticated RMS solutions, which are essential for compliance and improved performance.

However, the market faces challenges that could impede its growth if not adequately addressed. Aging infrastructure presents a significant hurdle, as older systems require substantial upgrades to be compatible with new technologies.

Additionally, the high upfront costs associated with implementing advanced RMS solutions can be a deterrent for some operators, particularly smaller ones with limited budgets. Despite these challenges, the North American railway management system market is expected to expand, driven by urbanization, stringent safety regulations, and the overarching need for operational efficiency.

Overcoming the obstacles related to infrastructure and initial investment will be crucial for sustaining this growth and ensuring that railway networks continue to meet the demands of an evolving transportation landscape.

Global Railway Management System Market: Segmentation Analysis

The Global Railway Management System Market is Segmented based on Solution, Service, and Geography.

Railway Management System Market, By Solution

• Rail Operations Management System
• Rail Traffic Management System
• Rail Asset Management System
• Rail Control System

Based on Solution, the Railway Management System Market is segmented into Rail Operations Management System, Rail Traffic Management System, Rail Asset Management System, and Rail Control System. The Rail Traffic Management System segment is showing significant dominance in the Global Railway Management System Market. Rail traffic management systems enable centralized supervision and traffic control of the entire rail network. The entire rail services can be controlled and regularized from a central control system. This central administration system employs real-time data over high-speed interface connections across trains and rail infrastructures to automate the traffic. Rail traffic management includes signaling, traffic control, routing, and train schedules.

Railway Management System Market, By Service

• Consulting
• System Integration and Deployment
• Support and Maintenance

Based on Services, the Railway Management System Market is segmented into Consulting, System Integration and Deployment, and Support and Maintenance. The system Integration and Deployment segment is showing significant dominance in the Global Railway Management Market. System integration and deployment services improve to identify the obligation for accommodation to support the smart railway's software in the current infrastructures and evade the constraint of such software. These services aid decrease deployment time, save time and costs, enable efficient working, and minimize deployment-related disruptions.

Key Players

The "Global Railway Management System Market" study report will provide a valuable insight with an emphasis on the global market including some of the major players such as Amadeus, Alstom, Ansaldo, Cisco, Bombardier, DXC Technology, Eurotech, Hitachi, IBM, and ABB.

Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

Global Railway Management System Market Key Developments

• In November 2019, Alstom SA signed a second ten-year maintenance deal for SBB's ETCS system. This contract extension is intended to secure the availability of spare parts and the vast SBB fleet required for the effective operation of rail traffic in Switzerland.
• In April 2019, IBM announced a partnership with Sund & Baelt, which owns and operates some of the largest infrastructures. This cooperation can help IBM develop an AI-powered IoT solution to help extend the life of old bridges, tunnels, highways, and trains.

TABLE OF CONTENTS

1 INTRODUCTION OF GLOBAL RAILWAY MANAGEMENT SYSTEM MARKET

• 1.1 Overview of the Market
• 1.2 Scope of Report
• 1.3 Assumptions

2 EXECUTIVE SUMMARY

3 RESEARCH METHODOLOGY OF VERIFIED MARKET RESEARCH

• 3.1 Data Mining
• 3.2 Validation
• 3.3 Primary Interviews
• 3.4 List of Data Sources

4 GLOBAL RAILWAY MANAGEMENT SYSTEM MARKET OUTLOOK

• 4.1 Overview
• 4.2 Market Dynamics
  • 4.2.1 Drivers
  • 4.2.2 Restraints
  • 4.2.3 Opportunities
• 4.3 Porters Five Force Model
• 4.4 Value Chain Analysis

5 GLOBAL RAILWAY MANAGEMENT SYSTEM MARKET, BY SOLUTION

• 5.1 Introduction
• 5.2 Rail Operations Management System
• 5.3 Rail Traffic Management System
• 5.4 Rail Asset Management System
• 5.5 Rail Control System

6 GLOBAL RAILWAY MANAGEMENT SYSTEM MARKET, BY SERVICE

• 6.1 Introduction
• 6.2 Consulting
• 6.3 System Integration and Deployment
• 6.4 Support and Maintenance

7 GLOBAL RAILWAY MANAGEMENT SYSTEM MARKET, BY GEOGRAPHY

• 7.1 Overview
• 7.2 North America
  • 7.2.1 U.S.
  • 7.2.2 Canada
  • 7.2.3 Mexico
• 7.3 Europe
  • 7.3.1 Germany
  • 7.3.2 U.K.
  • 7.3.3 France
  • 7.3.4 Rest of Europe
• 7.4 Asia Pacific
  • 7.4.1 China
  • 7.4.2 Japan
  • 7.4.3 India
  • 7.4.4 Rest of Asia Pacific
• 7.5 Rest of the World
  • 7.5.1 Middle East and Africa
  • 7.5.2 South America

8 GLOBAL RAILWAY MANAGEMENT SYSTEM MARKET COMPETITIVE LANDSCAPE

• 8.1 Overview
• 8.2 Company Market Ranking
• 8.3 Key Development Strategies

9 COMPANY PROFILES

• 9.1 Amadeus
  • 9.1.1 Overview
  • 9.1.2 Financial Performance
  • 9.1.3 Product Outlook
  • 9.1.4 Key Developments
• 9.2 Alstom
  • 9.2.1 Overview
  • 9.2.2 Financial Performance
  • 9.2.3 Product Outlook
  • 9.2.4 Key Developments
• 9.3 Ansaldo
  • 9.3.1 Overview
  • 9.3.2 Financial Performance
  • 9.3.3 Product Outlook
  • 9.3.4 Key Developments
• 9.4 Cisco
  • 9.4.1 Overview
  • 9.4.2 Financial Performance
  • 9.4.3 Product Outlook
  • 9.4.4 Key Developments
• 9.5 Bombardier
  • 9.5.1 Overview
  • 9.5.2 Financial Performance
  • 9.5.3 Product Outlook
  • 9.5.4 Key Developments
• 9.6 DXC Technology
  • 9.6.1 Overview
  • 9.6.2 Financial Performance
  • 9.6.3 Product Outlook
  • 9.6.4 Key Developments
• 9.7 Eurotech
  • 9.7.1 Overview
  • 9.7.2 Financial Performance
  • 9.7.3 Product Outlook
  • 9.7.4 Key Developments
• 9.8 Hitachi
  • 9.8.1 Overview
  • 9.8.2 Financial Performance
  • 9.8.3 Product Outlook
  • 9.8.4 Key Developments
• 9.9 IBM
  • 9.9.1 Overview
  • 9.9.2 Financial Performance
  • 9.9.3 Product Outlook
  • 9.9.4 Key Developments
• 9.10 ABB
  • 9.10.1 Overview
  • 9.10.2 Financial Performance
  • 9.10.3 Product Outlook
  • 9.10.4 Key Developments

10 APPENDIX

• 10.1 Related Research