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Gyeongbu Line

The Gyeongbu Line is a major conventional railway line in connecting to Station over a distance of 442 kilometers, operated by the Korea Railroad Corporation (). Opened on January 1, 1905, it was the first cross-country rail link on the , initially constructed under colonial rule to integrate economic and military transport. As the nation's primary north-south corridor, the line handles extensive passenger traffic—including high-speed services on upgraded and dedicated high-speed sections—freight shipments, and commuter operations, consistently recording the highest ridership among Korean routes with averages exceeding 650,000 daily passengers on key segments. Significant post-war developments include full electrification by 1975, progressive double-tracking to enhance capacity, and integration with the parallel opened in 2004, which reduced Seoul-Busan travel times from over five hours to under three, boosting economic connectivity between major industrial hubs. These enhancements have solidified its status as the backbone of 's infrastructure, supporting , , and intercity mobility amid rapid post-1950s industrialization.

Overview

Route and Length

The Gyeongbu Line connects in the capital city to Station, South Korea's principal port city, forming the country's primary north-south rail corridor with a total operational length of 441.7 kilometers. This distance encompasses the mainline track from terminus to terminus, serving as the backbone for both passenger and freight transport along the densely populated western and central regions. The route originates at , heading south through via key stations such as and , before entering Chungcheongnam-do at and . It continues to , the midpoint hub, then proceeds into Gyeongsangbuk-do, passing Gimcheon, Gumi, and —the latter featuring the major Dongdaegu Station for interchanges. The line then traverses Gyeongsangnam-do through before terminating at Busan Station after crossing the . This path links major industrial, administrative, and economic centers, facilitating high-volume traffic with multiple daily services including high-speed trains on parallel infrastructure where applicable.

Strategic Importance

The Gyeongbu Line serves as South Korea's primary rail corridor, linking the capital with , the nation's largest port and second-largest city, thereby facilitating the movement of s and freight along the densely populated and industrialized Seoul-Busan axis. This axis accounted for 73.3% of the country's population, 70% of , and 66% of as of 1995, underscoring the line's central role in national . Over one-third of South Korea's container , measured in ton-kilometers, transits the line in both directions, supporting industrial supply chains and export-oriented manufacturing concentrated in the region. Economically, the line's integration with high-speed services like the has amplified its significance, with the Gyeongbu route recording the highest ridership among all Korean high-speed lines and contributing to nearly 53 million passengers nationwide in 2012. It connects key urban centers including and , serving over 70% of the population and enabling efficient intercity connectivity that bolsters and . The corridor's capacity for rapid has been instrumental in sustaining South Korea's export-driven growth, particularly in sectors reliant on timely delivery to Busan's port facilities. Historically, the line held military-strategic value during Japanese colonial rule, constructed as a key supply route for imperial forces following the , connecting to the southern for troop deployments and logistics control over the . Completed in , it formed part of Japan's broader rail network expansion to secure dominance, highlighting ' role in geopolitical maneuvering. In contemporary , while explicit military documentation is limited, the line's north-south alignment positions it as for national defense logistics, though its primary emphasis remains economic resilience.

Historical Development

Construction and Early Operations (1901–1945)

The construction of the Gyeongbu Line was initiated by Japanese interests following their victory in the (1894–1895), which granted them rights to develop rail infrastructure on the Korean Peninsula for strategic military purposes. In June 1901, the Gyeongbu Railway Company was established under Japanese control to oversee the project, with groundbreaking ceremonies held on at Yeongdeungpo near and September 21 at Choryang in . The line, spanning approximately 441 kilometers on a standard 1,435 mm gauge with single track, was built primarily to facilitate troop movements and logistics amid escalating tensions with , connecting the capital (, now ) to the key port of Fusan (now ) via intermediate cities including , , and . The full line opened on January 1, 1905, coinciding with the end of the (1904–1905), during which it played a critical role in transporting over 10,000 soldiers and supplies southward from ports and assembly points. Initial operations relied on steam locomotives for both passenger and freight services, serving as the peninsula's primary north-south artery for administrative control, resource extraction (such as rice shipments to ), and military basing in areas like and . By 1906, ferry connections to in enhanced its integration into the broader imperial network, enabling seamless onward transport to the mainland. Following Japan's annexation of in 1910 via the Japan-Korea Annexation Treaty, the line was nationalized under the Chōsen Government Railway (Chosen Tetsudō), which prioritized expansion for colonial economic exploitation and continental invasion logistics, including links to northeastern by 1911. Operations intensified through and era, with the line supporting militarized freight hauls and troop deployments toward and the Pacific theater, though infrastructure strains from overload led to gradual double-tracking efforts by the early 1940s to accommodate surging traffic. By 1945, as Allied advances disrupted Japanese holdings, the railway had solidified as the backbone of colonial transport but faced deterioration from wartime overuse and bombing.

Post-Liberation and Korean War Era (1945–1960s)

Following Japan's surrender on August 15, 1945, the Korean railway system, including the Gyeongbu Line, was nationalized under the in the southern zone, transitioning from colonial control to Korean oversight via the . Rail traffic volumes declined sharply in the immediate postwar years due to economic disruption and effects; passenger numbers dropped 39% and cargo 13% by 1946 compared to pre-liberation levels. The Gyeongbu Line continued as South Korea's primary north-south artery, facilitating limited civilian and economic transport amid political instability under the newly established in 1948. The Korean War (1950–1953) underscored the line's strategic military value while inflicting severe damage. North Korean forces overran much of the route early in the conflict, capturing by June 28, 1950, and disrupting operations; UN Command relied on the surviving southern segments, particularly the Pusan Perimeter defenses, for critical supply logistics to , the last major port under allied control. Bombing campaigns targeted key infrastructure, including Han River rail bridges north of , severing direct connections and contributing to over 75% destruction across Korea's overall rail network, encompassing thousands of kilometers of track, numerous tunnels, and . Post-armistice reconstruction prioritized restoring basic functionality on the Gyeongbu Line, with U.S. Army Transportation Corps assistance providing diesel locomotives and engineering support to repair war-torn segments starting in 1953. Full-scale efforts ramped up by , focusing on essential tracks and bridges to resume reliable service between and , though the line remained predominantly single-track and steam-powered, limiting speeds and capacity. Into the early , operations persisted under the Korean National Railroad Administration with modest traffic growth tied to nascent industrialization, but chronic underinvestment and outdated equipment constrained efficiency amid political turmoil, including the 1960 and subsequent military coup.

Industrialization Push Under Park Chung-hee (1960s–1980s)

Under President Park Chung-hee's administration (1963–1979), the Gyeongbu Line was integral to South Korea's state-directed industrialization, serving as the primary rail corridor for freight between manufacturing centers in the northwest and export facilities in the southeast, including the . As part of successive five-year economic plans emphasizing export promotion and , the line transported bulk commodities such as , , and machinery components, underpinning the shift from to capital-intensive sectors that drove GDP growth from an average of 9.5% annually in the 1960s. Korean railways, with the Gyeongbu Line handling the majority of long-haul freight, retained dominance in industrial logistics during this period despite emerging competition from . To accommodate surging demand—freight ton-kilometers on national railways rose sharply alongside manufacturing expansion from 8.7% of GDP in 1963 to peaks in the 1970s—the Korean National Railroad (KNR) pursued capacity enhancements on key corridors like the Gyeongbu Line. Dieselization advanced in the early , phasing out inefficient steam locomotives and enabling faster, more reliable operations for shipments. By the mid-1970s, initiatives targeted high-traffic sections to further boost efficiency and speed, with the first operational electric services on the line commencing in 1974. These upgrades aligned with the third five-year plan's (1972–1976) focus on heavy and chemical industries, where rail efficiency was causal to scaling production in complexes along the route, such as those in and . Double-tracking and signaling improvements supplemented these efforts, addressing bottlenecks on the aging inherited from the era. However, the parallel development of the , completed in 1970 under Park's directive, began diverting some freight to trucks, reflecting a strategy but preserving rail's role in cost-effective bulk haulage until the . Overall, these investments in the Gyeongbu Line contributed to the logistical backbone of South Korea's "Miracle on the ," though rail's declined post-1970s as highways expanded.

Infrastructure Upgrades

Electrification and Double-Tracking (1980s–2000s)

The Gyeongbu Line saw substantial infrastructure enhancements during the 1980s, focusing on completing double-tracking across remaining single-track segments to alleviate capacity constraints amid rising passenger and freight demand driven by South Korea's rapid industrialization. By the mid-1980s, double-tracking had been achieved for the entire Seoul-Busan route, enabling bidirectional operations without scheduling conflicts and supporting average speeds of up to 100 km/h for conventional trains. These upgrades were prioritized to prevent projected saturation on the corridor by the decade's end, as forecasted by national transport planning assessments. Electrification efforts, utilizing 25 kV 60 Hz AC overhead systems, reached full completion across all sections by December 8, facilitating the transition from diesel to electric locomotives for improved efficiency and reduced operating costs. This built on earlier partial implementations, allowing for consistent electric traction that boosted hauling capacity by approximately 50% on freight services and enabled more reliable passenger timetables. Into the 1990s and 2000s, additional double-tracking and track strengthening occurred in northern segments, such as between Byeongjeom and , completed in phases up to , to integrate with expanding metropolitan networks and handle surging commuter volumes. These modifications, including curve realignments and upgraded substructures, prepared the line for interim use by high-speed trains on conventional tracks—particularly to —until dedicated high-speed infrastructure was finalized, with operating speeds raised to 150 km/h where feasible. Signaling systems were also modernized to enhance safety and throughput, reducing headways and minimizing delays on this vital artery.

Integration with KTX High-Speed Network

The Gyeongbu Line integrates with South Korea's high-speed network through upgraded sections of its infrastructure, enabling trains to access major urban stations and operate on conventional tracks where dedicated high-speed lines do not directly connect to city centers. This integration was essential during the phased rollout of the parallel (HSR), which began operations on April 1, 2004, with its first phase linking to . In the initial years, services from southward utilized extensively upgraded portions of the Gyeongbu Line to reach and , including track strengthening, improved geometry for higher speeds, and advanced signaling systems compatible with high-speed . These upgrades allowed early KTX-I trains, based on technology, to achieve speeds up to approximately 180 km/h on the conventional line sections between and , significantly reducing travel times compared to pre-KTX conventional services while sharing infrastructure with slower passenger and freight trains. The line's , previously completed in stages during the and , was further enhanced to support the power demands and operational requirements of KTX fleets. Completion of the Gyeongbu HSR's second phase on November 1, 2010, extended dedicated high-speed tracks to , shifting the majority of KTX operations to the HSR for maximum speeds exceeding 300 km/h; however, integration persists as KTX trains continue to use Gyeongbu Line tracks in downtown Seoul and other terminal areas lacking direct HSR access. Ongoing connectivity supports hybrid services, such as the Gyeongbu KTX line, where trains may alternate between HSR and conventional segments for efficiency and to serve intermediate stations like those in the . This setup has facilitated over 230 daily trips on the Seoul-Busan corridor as of recent operations, blending high-speed capacity with the Gyeongbu Line's established network for seamless passenger transfers and regional linkage. Recent fleet introductions, including the KTX-Cheongryong launched in April 2024, further leverage this integration for enhanced capacity on both HSR and compatible conventional sections during peak periods.

Technical Specifications

Track Gauge, Signaling, and Safety Systems

The Gyeongbu Line utilizes a track gauge of 1,435 mm (4 ft 8½ in), aligning with the international standard gauge adopted for South Korea's principal railway network to enable compatibility with modern rolling stock and potential cross-border operations. Signaling systems on the line have transitioned from mechanical semaphore types to electrical color-light automatic block signaling, supporting increased train frequencies and speeds post-electrification. Between Seoul and Cheonan, a four-aspect signaling configuration is employed, providing indications for track occupancy and speed authorization in multi-track sections. Centralized traffic control (CTC) integrates with these signals for remote management of routes and switches across the 441.7 km route. Safety enhancements include (ATS), which automatically applies brakes if speed limits are exceeded or signals are passed at danger; Automatic Train Protection (ATP), installed specifically on the Gyeongbu Line to enforce movement authority and prevent overruns; and (ATC), which continuously supervises train speeds relative to track conditions and braking curves. These systems, upgraded during the 1980s–2000s infrastructure phases, have reduced collision risks and supported operational speeds up to 150 km/h on conventional sections, with for services where tracks are shared.

Power Supply and Rolling Stock Compatibility

The Gyeongbu Line employs a 25 kV, 60 Hz alternating current (AC) overhead catenary system for electrification, consistent with Korail's standard for mainline operations. This voltage and frequency align with South Korea's national electrical grid, enabling efficient power distribution from substations using Scott-connected transformers to convert three-phase input to single-phase output for rail supply. Full electrification progressed in phases, with the Daegu–Busan segment completed as part of early upgrades to support increased train frequencies and speeds up to 150 km/h. Rolling stock compatibility requires electric locomotives and multiple units (EMUs) equipped with rated for 25 kV at 60 Hz, ensuring across Korail's network. Passenger services utilize EMUs such as sets (on shared segments with the high-speed line), Saemaeul-ho, and trains, all engineered for this power profile to maintain operational efficiency. Freight operations employ compatible electric locomotives, including models tested for heavy-haul configurations up to 50 wagons on the corridor. The 60 Hz frequency, distinct from Europe's 50 Hz systems, necessitates indigenous or adapted designs for imported technology, as seen in early adaptations from prototypes. Transitions at interfaces like , where sections from urban lines meet mainline power, incorporate neutral sections to prevent arcing and ensure safe pantograph operation.

Current Operations

Passenger Services Including KTX

The Gyeongbu Line, operated by , provides tiered passenger services ranging from high-speed intercity expresses to regional trains, facilitating travel along its 447.1-kilometer route from to . The (KTX) dominates long-distance operations, primarily utilizing the adjacent to attain maximum operating speeds of 305 km/h, with travel times from to averaging 2 hours 15 minutes. Introduced in 2004, KTX services have expanded to include advanced models like the KTX-Cheongryong, launched in April 2024, which achieves 320 km/h and shortens the Seoul-Busan journey to 2 hours 17 minutes. operates approximately 123 KTX trips daily on the Gyeongbu corridor, contributing to national KTX ridership of about 246,000 passengers per day as of 2025, a 3.4-fold increase from the inaugural year's average of 72,000. Conventional line services include intercity trains, which offer speeds intermediate between and slower expresses, with enhanced legroom and economy-class seating for efficient regional connectivity. These are supplemented by Saemaeul-ho limited expresses for faster service with fewer stops and trains, which provide the most economical fares while serving intermediate stations across the full route. All services feature modern amenities such as onboard catering and , though prioritizes premium configurations for business and leisure travelers. The line's passenger operations reflect high demand, with Gyeongbu handling the greatest volume among Korean rail routes, driven by economic hubs at both ends and integration with urban metros in and . Korail's ticketing system, accessible via its official platform, supports advance reservations to manage peak loads, ensuring reliability for daily commuters and tourists alike.

Freight Transport and Capacity Utilization

The Gyeongbu Line accommodates primarily through Korail's operations, focusing on containerized , bulk commodities, and intermodal services along the Seoul-Busan corridor, though volumes remain modest compared to passenger traffic. Freight trains typically operate during nighttime and off-peak periods to avoid conflicts with high-frequency and conventional passenger services, utilizing dedicated slots on the double-tracked, electrified conventional line parallel to the high-speed route. To enhance efficiency and address chronic logistics constraints, piloted extended freight formations in 2022. On July 19, 2022, a 50-wagon spanning 777 meters successfully traversed 402.3 from to , boosting single-train capacity by 52% over standard 1,000-ton configurations and marking a step toward routine long-haul operations. 's 2023 sustainability initiatives emphasized scaling such trains to 50 cars or more, aiming to alleviate truck congestion on parallel highways and elevate rail's in the corridor, which historically handled about 70% of national freight in the pre-HSR era but has since shifted predominantly to roads. Overall on the Gyeongbu Line exceeds 90% in key passenger-heavy sections like Seoul-Osong during weekdays and peak weekends, driven by dense scheduling that limits freight window availability. Freight slots, however, exhibit lower utilization, reflecting broader underuse of rail for cargo in —where trucks dominate due to flexible service—despite post-HSR plans to repurpose the conventional line as a dedicated high-capacity freight . Korail's long-train trials seek to optimize this underutilized potential, targeting reduced operational costs and emissions through consolidated loads.

Stations and Network Integration

Major Stations and Junctions

The Gyeongbu Line originates at , South Korea's principal railway terminus, which integrates with Line 1 and provides connections to the high-speed services via adjacent infrastructure. , located nearby, serves as an additional major stop in the capital region, handling intercity and commuter traffic. Station marks a key intermediate point in , accommodating high passenger volumes due to its proximity to industrial areas and links to local rail networks. Further along, Station and Station facilitate regional access, with the latter supporting transfers influenced by nearby high-speed operations. Station functions as a central junction, where the Gyeongbu Line intersects with the Honam Line, enabling onward travel to southwestern destinations such as and . This station processes significant daily ridership, reflecting its role in connecting central and southern regions. In the southeast, Station and Dongdaegu Station serve as vital hubs; Daegu handles conventional services, while Dongdaegu supports broader network integration, including freight and passenger interchanges. The line concludes at Busan Station, the southern endpoint and a primary gateway for the port city, linking to the Gyeongjeon Line for further coastal extensions. Key junctions include the split near for divergence and the Honam Line branch at Daejeon, which enhance the line's role in the national rail grid despite capacity constraints from parallel high-speed infrastructure.

Connectivity with Urban and Regional Lines

The Gyeongbu Line integrates with urban rail networks primarily through major transfer stations and shared trackage, enabling efficient passenger interchanges between intercity services and local metro systems. In the , , the line's northern terminus, serves as a primary hub connecting to —which operates commuter trains on Gyeongbu Line tracks southward—and Line 4, as well as the Airport Railroad Express to . This setup allows seamless transfers, with Line 1 extending Korail's national rail operations into urban commuter routes reaching as far as Cheonan-Samgeori. Further south, stations like provide additional urban linkages, where passengers can transfer to extensions of Line 1 and local systems, supporting daily commutes in the suburbs. In , Dongdaegu Station facilitates connections to Lines 1 and 2, integrating high-speed arrivals with the city's urban rail grid for regional distribution. For regional connectivity, the Gyeongbu Line intersects with branching lines at key junctions, such as Osong near , where it links to the Honam Line for access to southwestern provinces, and Miryang, connecting to the Gyeongjeon Line serving southeastern coastal areas like and . These interconnections, combined with Korail's unified ticketing compatible with urban smart cards like , enhance multimodal travel but face capacity constraints during peak hours due to mixed freight and passenger operations on shared segments.

Economic and Social Impacts

Contributions to Economic Growth and Regional Connectivity

The Gyeongbu Line, completed in 1905, established a vital connection between Seoul and Busan, functioning as the logistical backbone that supported South Korea's industrialization and export-driven economic expansion by enabling efficient movement of raw materials, manufactured goods, and workers. By the mid-1990s, the corridor along the line concentrated 73.3% of the national population, handled 70% of freight traffic, and carried 66% of passenger traffic, underscoring its dominance in channeling economic resources and activity. The launch of high-speed services in 2004 on dedicated tracks parallel to the conventional line revolutionized regional , reducing Seoul-Busan journey times from over seven hours to about three hours and thereby accelerating linkages, , and daily commutes across the peninsula's primary economic axis. This enhancement has driven tangible growth effects, such as a 5% uplift in from improved access and up to 10% higher economic activity in rural locales near KTX stations within a decade of operation. Daily KTX ridership exceeds 150,000 passengers, surpassing air travel on non-island routes and promoting deconcentration from the capital region. Freight operations on the conventional Gyeongbu Line complement these passenger gains by leveraging freed capacity post-KTX diversion, transporting over one-third of national rail freight in ton-kilometers—predominantly containers linking Busan's to inland industries—and sustaining supply chains critical to and . Overall, the line's infrastructure has amplified inter-regional integration, with high-speed expansions boosting railway passenger capacity 3.4-fold and freight throughput 7.7-fold relative to pre-HSR baselines, fostering sustained economic vitality along the route.

Criticisms, Safety Incidents, and Operational Challenges

The Gyeongbu Line has experienced several safety incidents involving derailments and collisions, primarily affecting workers rather than passengers. On August 19, 2025, a Mugunghwa struck seven personnel conducting post-flood inspections near Cheongdo, resulting in two fatalities (workers aged 30 and 37, employed as subcontractors) and five injuries; investigations confirmed as the cause, prompting of Korail's workplace safety protocols. In April 2025, an electric derailed in the Yeongdeungpo-Singil section due to axle breakage from bearing failure, disrupting operations but causing no reported fatalities. Freight operations faced challenges as well, with a at Maepo in early September 2025 leading to an overturned car and temporary suspension of electric services in both directions. High-speed KTX services on the parallel have recorded minor derailments with limited injuries. A March 2022 incident involved a KTX train derailing near due to wheel damage, injuring seven passengers and prompting to implement enhanced safety inspections and maintenance plans. Overall, South Korean rail accidents, including those on the Gyeongbu Line, contributed to 137 casualties (deaths and injuries) nationwide from 2022 to 2025, with derailments and collisions comprising 81% of rail traffic incidents, though passenger fatalities remain rare compared to worker-related events. has faced regulatory fines exceeding 1.5 billion won for safety lapses, including Guro Station worker deaths and multiple derailments. Operational challenges include frequent from and weather events. In October 2025, a broad ministry-mandated work suspension led to nationwide train , with Gyeongbu Line dropping 15.4 percentage points to 62.6% in the Gyeongsang due to concentrated disruptions. Heavy rains in July 2025 caused widespread closures, including Gyeongbu Line sections, exacerbating vulnerabilities to flooding despite upgrades. Criticisms focus on insufficient during peak hours, leading to on conventional services, and reliance on subcontractors for , which has been linked to lapses in and communication during incidents like Cheongdo. Korail's response has emphasized improved signaling and regimes, but persistent worker issues and delay-prone operations highlight ongoing tensions between demands and reliability.

Future Developments

Capacity Expansions and Modernization Projects

introduced the -Cheongryong high-speed trainsets on the in May 2024, capable of operating at up to 320 km/h, enabling reduced travel times and higher operational efficiency to accommodate growing demand. These trainsets feature advanced and improved passenger comfort, contributing to an overall fleet expansion that has increased daily trips from 142 to 381 and trainsets from 46 to 103 by April 2024, primarily serving the Seoul-Busan corridor. To further address capacity constraints, plans to procure 17 additional -Cheongryong units specifically for the to handle projected from economic growth and population shifts. In response to overcrowding, has utilized advanced simulation tools like PTV Visum to optimize timetables, proposing an increase of 14 daily trips on the Gyeongbu Line as part of a broader fleet upgrade initiative announced in 2025. This adjustment aims to boost daily seat capacity by 11.8% across key routes, enhancing service reliability and reducing wait times during peak hours without immediate infrastructure overhauls. Infrastructure modernization includes Seoul's 2024-announced project to relocate approximately 68 km of above-ground urban railways underground by the 2030s, encompassing sections of the Gyeongbu Line integrated with Line 1, with construction slated to begin in 2028. This initiative, costing billions in public funds, seeks to eliminate level crossings, mitigate , and repurpose 1.22 million square meters of rail corridors into linear parks and commercial spaces, indirectly supporting higher train frequencies through improved urban integration. Complementing direct upgrades, the completion of a parallel Seoul-Busan route via the modernized Dodam-Yeongcheon section in early 2025—featuring 4.3 trillion won investments in double-tracking, , and shortening—alleviates on the Gyeongbu corridor by distributing long-distance . Under the Fourth National Railway Network Construction Plan (2021-2030), additional signaling and track enhancements are prioritized to sustain operations amid rising freight and passenger volumes, though specific Gyeongbu allocations emphasize resilience over radical capacity doublings.

Adaptation to Climate and Technological Changes

In response to intensifying risks, the Gyeongbu Line's operations, particularly its high-speed segments, have been analyzed for vulnerabilities to elevated rail temperatures driven by projections. A 2025 study modeling scenarios under (SSP3-7.0 and SSP5-8.5) forecasts significant increases in abnormal operation days (rail temperatures ≥55°C) and suspension days (≥64°C) through 2100, with the Gyeongbu5 (Gimcheongumi–Dongdaegu) and Gyeongbu6 (Dongdaegu–) sections identified as highest risk due to their averages of 28.64 and 27.56 abnormal days, respectively, under SSP5-8.5 from 2021–2100. These projections stem from statistical validation via t-tests (p<0.05), highlighting potential for speed restrictions or halts to prevent track deformation. has responded by establishing facility strengthening measures as part of its climate crisis adaptation framework, aimed at bolstering overall railroad resilience against such thermal extremes. Adaptation strategies for heat vulnerabilities include rail temperature mitigation technologies, such as applying white paint to reflect radiation and seasonal water spraying to cool tracks, with pilots recommended specifically for the vulnerable Gyeongbu5 and Gyeongbu6 sections. Complementary actions encompass enhanced systems and structural reinforcements to elevate critical viaducts, reducing exposure to both and associated secondary risks like . For precipitation-related threats, including typhoons and floods, the line demonstrated operational following the July 2025 heavy rains, which suspended services between and due to track inundation and blockages, with full resumption achieved within days through targeted inspections and repairs. Korail's broader countermeasures integrate these event-driven responses into proactive infrastructure hardening, though specific quantifiable investments in drainage or flood barriers for Gyeongbu remain tied to national resilience policies. Technological adaptations focus on signaling and control upgrades to accommodate growing demand and improve safety amid evolving operational stresses. The Korean Train Control System Level 2 (KTCS-2), an advanced signaling protocol akin to European Train Control System Level 2, is slated for sequential rollout on the Gyeongbu High-Speed Railway by 2028, enabling precise train positioning, automatic speed enforcement, and higher throughput to mitigate bottlenecks. Complementing this, the National Railroad Authority's transition to IP-based electronic interlocking systems across key lines, including Gyeongbu segments, is projected to cut implementation costs by over 57% compared to legacy setups, facilitating faster modernization and integration with digital monitoring for climate-impacted conditions. Capacity enhancements, such as adding parallel tracks in congested corridors, aim to double daily train slots from 190 to 380, supporting resilient operations under variable weather and traffic loads. These upgrades align with Korail's electrification and fleet renewals, including deployment of next-generation KTX trains optimized for efficiency and reduced emissions.

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