El SITVA, incluyendo todas sus líneas troncales y modos complementarios, moviliza el 51.6 % de los pasajeros usuarios del transporte público en el Valle de Aburrá.[56]​.

Su área de influencia directa corresponde a los municipios integrados formalmente al sistema: Medellín, Bello "Bello (Antioquia)"), Itagüí, Envigado, Sabaneta "Sabaneta (Colombia)") y La Estrella "La Estrella (Antioquia)").

De manera indirecta, el sistema atiende a usuarios de municipios vecinos mediante rutas alimentadoras e intermunicipales que convergen en estaciones de integración. Entre estos municipios se encuentran Caldas "Caldas (Antioquia)"), Copacabana "Copacabana (Colombia)"), Girardota, Barbosa "Barbosa (Antioquia)"), La Ceja y el aeropuerto internacional José María Córdova.

Modal and territorial coverage

SITVA articulates multiple modes of transportation from a multimodal approach. Direct territorial coverage includes six integrated municipalities: Medellín, Bello "Bello (Antioquia)"), Itagüí, Envigado, Sabaneta "Sabaneta (Colombia)") and La Estrella "La Estrella (Antioquia)"). In these municipalities, users can access all trunk modes (metro, tram, cable car) and complementary modes (Metroplús, feeders, EnCicla), operating under a single tariff, technical and operational structure, coordinated by the Aburrá Valley Metropolitan Area.[57]​.

The system also extends its coverage indirectly to surrounding municipalities such as Caldas "Caldas (Antioquia)"), Copacabana "Copacabana (Colombia)"), Girardota, Barbosa "Barbosa (Antioquia)") and José María Córdova Airport, through feeder routes and inter-municipal services that operate by connecting to SITVA integration stations. Although these municipalities are not integrated into the tariff regime, they do have operational agreements or specific infrastructure to facilitate modal exchange.[58]​.

From the modal point of view, the SITVA is deployed as follows:

• - Railway system: covers the central axis of the Aburrá Valley with lines A and B of the Metro; Line E (80 Metro) is planned in the western metropolitan corridor.

• - Metrocable: operational cable car lines H, J, K, L, M and P that connect hillside areas with other modes of the system.

• - Tram: line T, operationally connected to the Metrocable and the Metro, mainly in the eastern axis of Medellín.

• - Rapid transit buses: Metroplús lines 1, 2 and O, operating on segregated or priority corridors.

• - Feeders and traditional routes: designed to connect peripheral neighborhoods with intermodal stations.

• - EnCicla public bicycles and cycle parks: complementary infrastructure to promote intermodality. EnCicla has automatic and manual stations connected to SITVA stations; Their mechanical and electric bicycles allow you to complete trips in complementary areas.[59]​.

The modal and territorial extension of SITVA ensures effective metropolitan coverage and promotes connection not only within the integrated municipalities but also with neighboring areas, articulating multimodal and environmentally sustainable mobility.

Transfer and modal exchange nodes

SITVA has a network of stations and terminals that function as strategic modal exchange nodes, extending its influence beyond the formally integrated municipalities. These points allow the articulation of the different modes of the system—metro, tram, cable car, rapid transit buses, feeders and public bicycles—with intermunicipal or complementary services.

Among the most relevant nodes are:

• - Caribe Station, which connects line A with the North Terminal, starting point for intermunicipal routes to the north and east of Antioquia.

• - Itagüí Station, Sabaneta Station and La Estrella "La Estrella Station (Medellín Metro)"), which facilitate the connection with services to Caldas "Caldas (Antioquia)") and the south of the Aburrá Valley.

• - Niquía Station, connection point with routes to Copacabana "Copacabana (Colombia)"), Girardota and Barbosa "Barbosa (Antioquia)").

• - Aguacatala Station and Expósitos Station, where routes that provide service to the José María Córdova International Airport converge.

• - San Antonio "San Antonio Station (Medellín Metro)"), main connection node between lines A and B of the metro, and articulation with the tram system.

• - San Javier Station "San Javier Station (Medellín Metro)"), terminal of line B and connection point with Metrocable J.

• - Acevedo Station, connecting line A and Metrocable K.

• - Oriente "Orient Station (Medellín Metro)"), which facilitates transfers between the tram, EnCicla and complementary routes.

These nodes operate as platforms for the extension of the system to non-integrated municipalities and as strategic points for metropolitan mobility.

Physical integration and cycling nodes

SITVA has a physical integration infrastructure that facilitates transfers between different modes of transportation, including stations with internal connections between metro, tram, metrocables, rapid transit buses, feeders and public bicycles. This infrastructure is designed to allow continuous routes without having to leave the system, and is articulated with public spaces, bus stops, road interchanges and pedestrian corridors.

Modal integration is reinforced through cycling nodes located in key stations of the system, which have cycle parks, connection areas with the EnCicla network and accesses adapted to bicycle transport. These nodes allow the system's trunk routes to be complemented with last mile trips made by bicycle.

Among the main cycling nodes are:

• - Universidad Station "University Station (Medellín Metro)"), which has high-capacity cycle parking, direct connection to EnCicla and access to the University of Antioquia.

• - Suramericana Station, connected to the Unidad Deportiva Atanasio Girardot sports complex and the cycling infrastructure of the sector.

• - Industrial Station, linked to EnCicla and one of the main cycle connection routes in the south of the valley.

• - Estadio Station "Estación Estadio (Medellín Metro)"), intermodal node with integration capacity between metro, EnCicla and feeder routes.

• - Miraflores Station, tram system station with connection to cycle parks, EnCicla and pedestrian spaces.

• - Cisneros Station, linked to the EnCicla corridor of La Alpujarra and nearby Metroplús stations.

• - Hospital "Estación Hospital (Medellín Metro)"), with direct connection to the EnCicla network in the city center.

• - Acevedo Station, intermodal node between line A and Metrocable K, with bicycle infrastructure that allows access to high areas.

These spaces expand the territorial reach of the system beyond the stations, by integrating the bicycle as a complementary mode within the metropolitan mobility scheme.

Territorial extension through complementary systems

The EnCicla public bicycle system, operated by the Metropolitan Area of ​​the Aburrá Valley, is functionally articulated with the SITVA as a complementary mode that facilitates the last mile connection and the distribution of flows. Although it is not integrated into the SITVA fare scheme, its network of cycle stations and its fleet extend the effective coverage of public transport, connecting metro, tram, metrocable and Metroplús stations with strategic residential, educational and commercial areas.[60]​.

Since its inception in 2011, EnCicla has grown to operate with approximately 101 stations—automatic and manual—distributed in Medellín, Envigado, Itagüí and Sabaneta, with an estimated fleet of 1,800 bicycles and more than 112,000 active users.[61]​.

In cycle stations located next to SITVA nodes such as Universidad, Industriales, Suramericana, Oriente and Ayacucho tram stations, loan points have been arranged designed to promote effective intermodality.[62]​.

In its most recent expansion, EnCicla has reached strategic peripheral areas: it has extended to Bello and Itagüí and a pilot phase was implemented in La Estrella during 2022, as part of the Mobility Master Plan strategy to connect the ten municipalities of the Aburrá Valley.[62]​.

Technical evidence suggests that, although EnCicla does not constitute a core tariff mode, its presence in intermodal nodes and its territorial density give it a key role in expanding the modal and territorial coverage of SITVA.[63]​.

La infraestructura del Sistema Integrado de Transporte del Valle de Aburrá está compuesta por un conjunto de elementos físicos y materiales que soportan la operación del sistema. Esta infraestructura incluye estaciones, paraderos, vías férreas, líneas de teleférico, terminales de transporte, patios, talleres, centros de control, cicloparqueaderos y redes de circulación peatonal asociadas.[64]​[65]​ Todos estos componentes se distribuyen en los diez municipios del valle de Aburrá y forman parte de una estructura técnica integrada, administrada y operada por distintas entidades bajo la coordinación general del Área Metropolitana del Valle de Aburrá como autoridad regional de transporte.[66]​ Esta sección describe las características físicas y la distribución territorial de dicha infraestructura.

Active and under construction lines

Below are the lines that currently make up the SITVA network, as well as those that are in the construction phase. The list groups all modes (metro, cable cars, tram, buses and feeders) in a unified manner according to their operational status:

For more technical details of each line, see the section corresponding to each mode of transport later in this article..

railway system

The SITVA railway system is made up of lines A "Line A (Medellín Metro)") and B "Line B (Medellín Metro)") of the Medellín Metro, which operate on a specialized technical infrastructure that includes railway tracks, elevated and level stations, switching yards, maintenance workshops, electrical substations, signaling networks, support structures and auxiliary systems.[69]​[70]​ This network constitutes the structuring axis of the integrated transportation system of the Aburrá Valley and was the first to come into operation.[69]​.

The railway lines are supported on a double track with a standard gauge of 1,435 mm (4' 8") (international gauge), built on ballast and concrete sleepers in most of the route, although in some sectors the track support is carried out on concrete slabs. avenues or dense urban areas. There are no underground sections in the system.[72]​ The curves, slopes and turning radii have been designed in accordance with metropolitan railway standards and adapted to the topographic conditions of the Aburrá Valley.[73]​.

The system's electrical supply is provided by rigid catenary "Catenary (railway)") suspended over the tracks. This infrastructure is made up of poles, metal arms, insulators, tension cables, rectification substations, medium voltage distribution networks and grounding systems. The electrical substations are located at strategic points along the route and supply sections defined by automatic sectioning. The operating voltage is adjusted to the specifications of the rolling stock and is monitored in real time from the control center.[74]​[75]​.

The metro stations are distributed along both lines and are classified into level stations and elevated stations, depending on the configuration of the terrain. All have covered platforms, controlled access, uniform institutional signage, turnstiles, lockers, surveillance cameras and technical lighting systems. Some stations, such as San Antonio "Estación San Antonio (SITVA)"), San Javier "Estación San Javier (SITVA)") and Industriales "Estación Industriales (Medellín Metro)"), among others, allow physical connection with other SITVA modes through gateways "Pasarela (bridge)"), stairs or shared integration modules. Several of them also have cycle parking, street furniture and pedestrian access suitable for people with reduced mobility.[76]​[77]​[78]​[74]​.

The system has independent switching yards and maintenance workshops for each line. The main yard of the system is located in the municipality of Bello "Bello (Antioquia)"), next to the Niquía station "Estación Niquía (Metro de Medellín)"). This space houses the operations center for the rolling stock of Line A and has parking areas, auxiliary roads, track change devices, administrative buildings, warehouses and logistics areas. On line B, the yard is located to the west of the San Javier station and performs readiness and operational reserve functions.[79]​[80]​.

The metro workshops are equipped with inspection pits, overhead cranes, lifting platforms, washing stations, technical dispensers, hydraulic and electrical networks, parts warehouses, compressed air systems, technical control laboratories and specialized offices. The infrastructure of these spaces responds to regulatory requirements for urban railway systems and is constantly being adapted and expanded in accordance with the growth of the fleet and major maintenance needs.[81]​[79]​.

The entirety of this infrastructure is articulated through a railway signaling and centralized traffic control system, with electronic interlocks, beacons, railway traffic lights, detection devices, on-board telecommunications and fiber optic communication networks. These physical systems allow the safe, synchronized and continuous operation of trains on both lines, under the supervision of the Comprehensive Control Center of the Medellín Metro.[82]​[83]​[84]​[81]​.

tram system

The SITVA tram system is made up of line T "Line T (Medellín Tram)") of the Ayacucho tram, a medium-capacity railway corridor built for the operation of low-floor trams in urban environments with high population density and inclined topography. This line functions as a transversal axis of the integrated system and connects the center of Medellín with eastern sectors of the city, combining railway infrastructure, specific stations, electrical systems, yards and dedicated workshops.[85]​[86]​[87]​.

Line T runs on a single track with sections of double track at crossing points and at some stations. The gauge is standard 1435 mm (4' 8") and the support structure is composed of plate-reinforced concrete slabs, on which the rails are fixed using elastic fastening systems. Embedded technical channels have been arranged along the route to house electrical ducts, communications networks and surface drainage systems. The route includes steep slopes and reduced turning radii, designed especially for tram technology. adopted.[88][89][90]​.

The electrical supply is provided by a rigid catenary suspended over the central axis of the track, composed of aluminum profiles with copper conductors and fixed suspension systems. This infrastructure is powered from dedicated electrical substations, with converters, transformers, high capacity switches, protection systems and medium voltage distribution networks. The operating voltage is calibrated for low-floor rolling stock and is monitored from the system control center.[91]​[92]​.

The stations of the tram system are level platforms, with access structures designed to guarantee step-free boarding, approach ramps and tactile signage. Each station has light roofing, institutional signage, street furniture, technical lighting systems, fare validators and user information devices. Most stations are located on the central axis of the road and are delimited by fixed dividers, with protected or controlled pedestrian access. Some stations, such as San Antonio and Miraflores, are physically integrated with other SITVA modes.[93][86]​.

The system has its own workshop and patio, located in the Miraflores sector, next to the homonymous station. This technical complex houses the maintenance and operational management facilities of the tram system. The workshop has inspection pits, overhead cranes, mobile platforms, washing areas, technical dispensers, component warehouses, hydraulic and electrical systems, diagnostic laboratories and technical offices. The adjacent patio includes preparation routes, parking areas, perimeter fencing, surveillance systems and maneuvering platforms for overnight parking of the units.

The operation of the tram system is coordinated from the Comprehensive Control Center, through a dedicated signaling and traffic control system, which includes railway traffic lights, proximity sensors, electronic interlocks, traffic light priority systems at intersections, on-board telecommunications and fiber optic communication networks. This infrastructure allows the safe, continuous and synchronized operation of trams in complex urban conditions, with permanent supervision and the capacity to respond to technical eventualities or road contingencies.[94]​[93]​.

cable car system

The SITVA cable car system is made up of lines H "Line H (Metrocable of Medellín)"), J "Line J (Metrocable of Medellín)"), K "Line K (Metrocable of Medellín)"), L "Line L (Metrocable of Medellín)"), M "Line M (Metrocable of Medellín)") and P "Line P (Metrocable) of Medellín)") of the Medellín Metrocable, a cable transportation network designed to connect hillside areas with the rest of the system. Each line operates independently and is made up of stations, towers (commonly called "pylons"), carrier-tractor cables, cabins, transfer terminals, electromechanical subsystems, control centers, and auxiliary components.[4][95]​.

The system lines are made up of sections of aerial cable supported by high-rise metal towers, founded on concrete bases anchored in steep terrain. These towers, distributed along the route, allow the tension, alignment and separation of the cables to be maintained depending on the topography and the desired trajectory. The structure also includes compensation stations and intermediate deceleration towers. The carrier-tractor cables are made of galvanized steel, with coatings and automatic guidance systems that guarantee operational stability and safety in the movement of the cabins.[96]​[97]​.

Each line has a departure station, one or more intermediate stations and a terminal station. Unlike tourist systems, the intermediate stations in the Metrocable not only serve for deceleration or assisted evacuation, but also actively function as passenger boarding and disembarkation points. The infrastructure of these stations varies depending on their location, but generally includes level or elevated platforms, controlled access areas, pedestrian walkways, approach ramps, lightweight roofs, institutional signage, and covered waiting areas. Some stations have additional elements such as elevators, natural ventilation systems, cycle parking or physical integration with other SITVA lines.[98]​[99]​[100]​.

The electrical power system is based on traction motors located in the drive stations of each line, along with its own substations, power converters, emergency systems and internal distribution panels. The stations have automatic coupling and uncoupling mechanisms for cabins, electromagnetic brakes, evacuation devices, technical cabins and redundant power systems. The voltage and traction capacity are calibrated according to the number of cabins and the slope of each line.[97][101][102]​.

The Metrocable workshops are located mainly in the motor terminal stations, and are designed to accommodate major maintenance tasks and comprehensive diagnosis of electromechanical components. These facilities include inspection pits, lifting equipment, engine test benches, devices for controlling friction in pulleys, spare parts warehouses and technical cabin cleaning stations. The equipment allows structural review processes of the clamping clamps, roller alignment, brake calibration, and replacement of critical components with precision tools.[103]​[104]​.

Bus rapid transit lines

SITVA has a rapid transit bus network, made up of three lines operated by the company Metroplús S. A., which integrate exclusive or preferential corridors for articulated and standard buses. In total, the system has about km of segregated infrastructure at the surface level. Lines 1 and 2 are built on trunk axes with rigid separators and central stations with platforms aligned at the boarding level, along the west of Medellín, mainly in the commune 16 Belén. Line 1 runs between the Universidad de Medellín station and the Aranjuez station, in the center-north of the city, with an approximate length of 12.5km and twenty stations. Line 2 operates in the opposite direction, over a large part of the same corridor.[106]​.

This system has three lines in operation that total approximately 26km of dedicated or prioritized infrastructure built at surface level. These lines are distinguished by their degree of segregation with respect to mixed traffic, the layout of boarding stations, the type of traffic light control and access systems. In all corridors, articulated and standard vehicles with low-emission engines are used, powered by clean diesel type EuroV or higher, equipped with doors at platform level and air conditioning systems.[107]​.

Line 1 "Line 1 (Metroplús)"), partially inaugurated in 2011 and completed in 2013,[108] its route extends from the Universidad de Medellín station "Estación Universidad de Medellín (Metroplús)"), in the commune 16 Belén "Belén (Medellín)"), to the Parque de Aranjuez station "Estación Parque de Aranjuez (Metroplús)"), with an approximate total of 12.5km and 20 stations. The corridor is located exclusively on 30A Avenue (30th Street), where it circulates in a central lane segregated with New Jersey type barriers, while mixed traffic is channeled to side lanes. Central stations are designed with bus-level platforms, turnstiles, adaptive signage, metal covers, ramps, and safe pedestrian connections via elevated bridges.[109]​[110]​.

Line 2 "Line 2 (Metroplús)") operates on a pre-trunk corridor of approximately 13.5km, whose layout largely coincides with that of line 1, but presents substantial differences in its configuration. Unlike this, it uses preferential lanes with partial traffic light priority and shared operation sectors with private vehicles. It has 15 pre-trunk type stations, built on adapted side platforms, with elevated platforms, access ramps for people with reduced mobility, modular metal covers and access signage from the pedestrian route.[107]​.

Line O "Line O (Metroplús)") was put into operation in 2022 and has an approximate length of 9.2km. Its infrastructure connects the La Palma station "Estación La Palma (Metrolús)"), located in commune 16 Belén of Medellín, with the Caribe interchange "Estación Caribe (Metro de Medellín)"), in commune 5 Castilla "Castilla (Medellín)"). This pre-trunk corridor uses mixed-use side roads with operational priority for the system's buses, supported by access controls, differentiated horizontal signage, demarcated lanes and eco-station-type stations with elevated platforms, lightweight covers, LED-type lighting and digital information panels.[107]​[111]​.

Cycle parks

The SITVA has a network of cycle parks distributed in various stations of the metro, tram and bus rapid transit system. These infrastructures allow users to combine the use of bicycles with mass public transport, which favors active mobility and intermodality in the Aburrá Valley.[112]​.

The cycle parks are designed to house private bicycles, and are clearly differentiated from the stations of the EnCicla system, which are intended for the public loan of bicycles.[113]​.

According to the Medellín Metro, the bicycle parking infrastructure includes metal modules covered with inverted U-type supports, lighting points and surveillance cameras, as well as accesses with security personnel or electronic control mechanisms, depending on the location.[114]​ In some cases, the modules are located in internal areas of the stations, while in others they are located in adjacent spaces, clearly marked as bicycle areas.[115]​.

The design of these spaces obeys safety and accessibility criteria derived from the Metropolitan Bicycle Master Plan (PMB 2030), which establishes the goal that 10% of trips in the Aburrá Valley be made by bicycle. By 2019, nearly 204 cycle parks had already been installed, with an average capacity of 10 bicycles per module distributed in the municipalities of the Aburrá Valley.[116]​.

Line L "Line L (Medellín Metro)") does not provide service on the first business day of each week.

SITVA has different vehicles that adjust to the typologies of each of its lines:

• - MAN type train on Line A "Line A (Medellín Metro)") and Line B "Line B (Medellín Metro)") in a configuration of three cars per train.

• - CAF type train on Line A "Line A (Medellín Metro)") in a configuration of three cars per train.

• - Poma Gondola on Line K "Line K (Medellín Metro)"), Line J "Line J (Medellín Metro)"), Line L "Line L (Medellín Metro)"), Line H "Line H (Medellín Metro)"), Line M "Line M (Medellín Metro)") and Line P "Line P (Medellín Metro)").

• - Translohr NTL STE5 tram on Line T "Line T (Medellín Metro)").

Currently, access to SITVA is mainly done through the Cívica smart card, which allows the use of an integrated fare system in all modes of transport in the system. Previously, you could also enter with tickets for one or more trips, which were introduced at the "Winlass (access barrier)" turnstiles at the stations; However, this system was progressively replaced until its elimination in 2007.

On December 10, 2020, the launch of the Cívica Pay mobile application was announced,[117]​ which allows you to generate a QR code as an alternative means of access and make online recharges without mobile data consumption.[118]​ However, this mechanism does not apply to entry to feeder buses, where only the Cívica card is accepted.

Las tarifas del sistema se establecen anualmente mediante resolución oficial emitida por el Área Metropolitana del Valle de Aburrá, en su calidad de autoridad de transporte. Estas tarifas son de obligatorio cumplimiento para todos los modos integrados en el SITVA y pueden ser modificadas de acuerdo con criterios técnicos, financieros y de política pública.[119]​.

La tarjeta Cívica permite acceder a diferentes tipos de tarifas según el perfil del usuario y el modo de transporte. Los usuarios que registran su tarjeta pueden acceder a tarifas preferenciales, que incluyen subsidios para estudiantes, adultos mayores, personas con discapacidad y beneficiarios del SISBEN. Estas tarifas diferenciales son posibles gracias al sistema de personalización, el cual asocia el perfil socioeconómico del usuario a la tarjeta.[120]​.

Las siguientes tarifas comenzaron a regir a partir del 1 de enero de 2025:[121]​.

Estas tarifas del Cable Arví comenzaron a regir desde el 11 de abril de 2025.[122]​.

Los usuarios con tarjeta personalizada también pueden acceder a funcionalidades como carga anticipada, recarga en línea, registro de viajes, recuperación de saldo en caso de pérdida o daño, y consulta de reportes de uso mediante la app o la plataforma web Cívica.[123]​.

Previous adjustments and tariff logic

The 6.2% rate increase applied from 2025 was due to an annual technical study that determined adjustments of 220COP for frequent users, 160COP for seniors and 70COP for students. Integrated routes increased on average by 240COP, while metropolitan routes increased by 200COP, with a specific adjustment of 250COP for the municipality of Barbosa.[124][125]​.

The SITVA tariff logic seeks to encourage modal integration through free transfers within the deadlines established by the Aburrá Valley Mobility Master Plan (2020-2035), which promotes favorable tariff mechanisms in transfer times of less than 90 minutes. Likewise, it establishes differentiated rates for priority groups, such as students, older adults and people with disabilities, through socioeconomic controls associated with the personalized Civic Card.[126]​[127]​.

Historical evolution of rates

In addition to the technical criteria applied annually, the following table summarizes the rate increases applied in the SITVA system between the years 2020 and 2025, with details for frequent users, special profiles and integrated modalities. This table may change annually as new data is released by relevant authorities:.

Note: for some years no data disaggregated by profile or modality was found..

Criticisms and citizen requests

Various social organizations and student groups have requested over the years the expansion of tariff benefits, as well as a review of the automatic tariff updating system. In 2023, protests were reported over the suspension of student subsidies due to delays in the reporting of enrollment or failures in the integration of institutional databases.[133]​.

Other large investments will be supported mostly with the Metro's own resources and seek to extend and improve the quality of life among all the inhabitants of the Aburrá Valley.

• - The 80 Metro is a work that will run from the Caribe station to the Aguacatala station or vice versa, in a time of 32 minutes, passing through a total of 14 stops and 3 stations. The corridor covers 13.25 km with a route from the Caribe Metro station, passing through transversal 73, then along 65th street to the Faculty of Mines sector where it takes avenue 80-81, closing the circuit at the Aguacatala station in the south of the city of Medellín.[134]​.

• - The Commuter Train, or River Train, which serves to move cargo, solid waste and passengers, whose study stage began in December 2009, it is planned to obtain the resources for the work at the hands of the Metro law, this $4.2 billion project, of which the region contributes 30% ($1.26 billion) and co-financing by public debt from the National Government of the remaining 70% ($2.94) is expected. trillion).[135]​.

• - Currently, the repowering of the first MAN type trains is being carried out, which have already completed 25 years of service in the system. This project is planned to be completed in approximately 24 months, carried out entirely with its own resources and with local labor.

• - The mayor of Medellín, at the hands of Daniel Quintero Calle, in 2021 signed an agreement to begin the pre-feasibility and feasibility studies of a new railway line, which is planned to be 100% underground, and whose letter would be line S.[136]​[137]​[138]​.

El SITVA, incluyendo todas sus líneas troncales y modos complementarios, moviliza el 51.6 % de los pasajeros usuarios del transporte público en el Valle de Aburrá.[56]​.

Su área de influencia directa corresponde a los municipios integrados formalmente al sistema: Medellín, Bello "Bello (Antioquia)"), Itagüí, Envigado, Sabaneta "Sabaneta (Colombia)") y La Estrella "La Estrella (Antioquia)").

De manera indirecta, el sistema atiende a usuarios de municipios vecinos mediante rutas alimentadoras e intermunicipales que convergen en estaciones de integración. Entre estos municipios se encuentran Caldas "Caldas (Antioquia)"), Copacabana "Copacabana (Colombia)"), Girardota, Barbosa "Barbosa (Antioquia)"), La Ceja y el aeropuerto internacional José María Córdova.

Modal and territorial coverage

SITVA articulates multiple modes of transportation from a multimodal approach. Direct territorial coverage includes six integrated municipalities: Medellín, Bello "Bello (Antioquia)"), Itagüí, Envigado, Sabaneta "Sabaneta (Colombia)") and La Estrella "La Estrella (Antioquia)"). In these municipalities, users can access all trunk modes (metro, tram, cable car) and complementary modes (Metroplús, feeders, EnCicla), operating under a single tariff, technical and operational structure, coordinated by the Aburrá Valley Metropolitan Area.[57]​.

The system also extends its coverage indirectly to surrounding municipalities such as Caldas "Caldas (Antioquia)"), Copacabana "Copacabana (Colombia)"), Girardota, Barbosa "Barbosa (Antioquia)") and José María Córdova Airport, through feeder routes and inter-municipal services that operate by connecting to SITVA integration stations. Although these municipalities are not integrated into the tariff regime, they do have operational agreements or specific infrastructure to facilitate modal exchange.[58]​.

From the modal point of view, the SITVA is deployed as follows:

• - Railway system: covers the central axis of the Aburrá Valley with lines A and B of the Metro; Line E (80 Metro) is planned in the western metropolitan corridor.

• - Metrocable: operational cable car lines H, J, K, L, M and P that connect hillside areas with other modes of the system.

• - Tram: line T, operationally connected to the Metrocable and the Metro, mainly in the eastern axis of Medellín.

• - Rapid transit buses: Metroplús lines 1, 2 and O, operating on segregated or priority corridors.

• - Feeders and traditional routes: designed to connect peripheral neighborhoods with intermodal stations.

• - EnCicla public bicycles and cycle parks: complementary infrastructure to promote intermodality. EnCicla has automatic and manual stations connected to SITVA stations; Their mechanical and electric bicycles allow you to complete trips in complementary areas.[59]​.

The modal and territorial extension of SITVA ensures effective metropolitan coverage and promotes connection not only within the integrated municipalities but also with neighboring areas, articulating multimodal and environmentally sustainable mobility.

Transfer and modal exchange nodes

SITVA has a network of stations and terminals that function as strategic modal exchange nodes, extending its influence beyond the formally integrated municipalities. These points allow the articulation of the different modes of the system—metro, tram, cable car, rapid transit buses, feeders and public bicycles—with intermunicipal or complementary services.

Among the most relevant nodes are:

• - Caribe Station, which connects line A with the North Terminal, starting point for intermunicipal routes to the north and east of Antioquia.

• - Itagüí Station, Sabaneta Station and La Estrella "La Estrella Station (Medellín Metro)"), which facilitate the connection with services to Caldas "Caldas (Antioquia)") and the south of the Aburrá Valley.

• - Niquía Station, connection point with routes to Copacabana "Copacabana (Colombia)"), Girardota and Barbosa "Barbosa (Antioquia)").

• - Aguacatala Station and Expósitos Station, where routes that provide service to the José María Córdova International Airport converge.

• - San Antonio "San Antonio Station (Medellín Metro)"), main connection node between lines A and B of the metro, and articulation with the tram system.

• - San Javier Station "San Javier Station (Medellín Metro)"), terminal of line B and connection point with Metrocable J.

• - Acevedo Station, connecting line A and Metrocable K.

• - Oriente "Orient Station (Medellín Metro)"), which facilitates transfers between the tram, EnCicla and complementary routes.

These nodes operate as platforms for the extension of the system to non-integrated municipalities and as strategic points for metropolitan mobility.

Physical integration and cycling nodes

SITVA has a physical integration infrastructure that facilitates transfers between different modes of transportation, including stations with internal connections between metro, tram, metrocables, rapid transit buses, feeders and public bicycles. This infrastructure is designed to allow continuous routes without having to leave the system, and is articulated with public spaces, bus stops, road interchanges and pedestrian corridors.

Modal integration is reinforced through cycling nodes located in key stations of the system, which have cycle parks, connection areas with the EnCicla network and accesses adapted to bicycle transport. These nodes allow the system's trunk routes to be complemented with last mile trips made by bicycle.

Among the main cycling nodes are:

• - Universidad Station "University Station (Medellín Metro)"), which has high-capacity cycle parking, direct connection to EnCicla and access to the University of Antioquia.

• - Suramericana Station, connected to the Unidad Deportiva Atanasio Girardot sports complex and the cycling infrastructure of the sector.

• - Industrial Station, linked to EnCicla and one of the main cycle connection routes in the south of the valley.

• - Estadio Station "Estación Estadio (Medellín Metro)"), intermodal node with integration capacity between metro, EnCicla and feeder routes.

• - Miraflores Station, tram system station with connection to cycle parks, EnCicla and pedestrian spaces.

• - Cisneros Station, linked to the EnCicla corridor of La Alpujarra and nearby Metroplús stations.

• - Hospital "Estación Hospital (Medellín Metro)"), with direct connection to the EnCicla network in the city center.

• - Acevedo Station, intermodal node between line A and Metrocable K, with bicycle infrastructure that allows access to high areas.

These spaces expand the territorial reach of the system beyond the stations, by integrating the bicycle as a complementary mode within the metropolitan mobility scheme.

Territorial extension through complementary systems

The EnCicla public bicycle system, operated by the Metropolitan Area of ​​the Aburrá Valley, is functionally articulated with the SITVA as a complementary mode that facilitates the last mile connection and the distribution of flows. Although it is not integrated into the SITVA fare scheme, its network of cycle stations and its fleet extend the effective coverage of public transport, connecting metro, tram, metrocable and Metroplús stations with strategic residential, educational and commercial areas.[60]​.

Since its inception in 2011, EnCicla has grown to operate with approximately 101 stations—automatic and manual—distributed in Medellín, Envigado, Itagüí and Sabaneta, with an estimated fleet of 1,800 bicycles and more than 112,000 active users.[61]​.

In cycle stations located next to SITVA nodes such as Universidad, Industriales, Suramericana, Oriente and Ayacucho tram stations, loan points have been arranged designed to promote effective intermodality.[62]​.

In its most recent expansion, EnCicla has reached strategic peripheral areas: it has extended to Bello and Itagüí and a pilot phase was implemented in La Estrella during 2022, as part of the Mobility Master Plan strategy to connect the ten municipalities of the Aburrá Valley.[62]​.

Technical evidence suggests that, although EnCicla does not constitute a core tariff mode, its presence in intermodal nodes and its territorial density give it a key role in expanding the modal and territorial coverage of SITVA.[63]​.

La infraestructura del Sistema Integrado de Transporte del Valle de Aburrá está compuesta por un conjunto de elementos físicos y materiales que soportan la operación del sistema. Esta infraestructura incluye estaciones, paraderos, vías férreas, líneas de teleférico, terminales de transporte, patios, talleres, centros de control, cicloparqueaderos y redes de circulación peatonal asociadas.[64]​[65]​ Todos estos componentes se distribuyen en los diez municipios del valle de Aburrá y forman parte de una estructura técnica integrada, administrada y operada por distintas entidades bajo la coordinación general del Área Metropolitana del Valle de Aburrá como autoridad regional de transporte.[66]​ Esta sección describe las características físicas y la distribución territorial de dicha infraestructura.

Active and under construction lines

Below are the lines that currently make up the SITVA network, as well as those that are in the construction phase. The list groups all modes (metro, cable cars, tram, buses and feeders) in a unified manner according to their operational status:

For more technical details of each line, see the section corresponding to each mode of transport later in this article..

railway system

The SITVA railway system is made up of lines A "Line A (Medellín Metro)") and B "Line B (Medellín Metro)") of the Medellín Metro, which operate on a specialized technical infrastructure that includes railway tracks, elevated and level stations, switching yards, maintenance workshops, electrical substations, signaling networks, support structures and auxiliary systems.[69]​[70]​ This network constitutes the structuring axis of the integrated transportation system of the Aburrá Valley and was the first to come into operation.[69]​.

The railway lines are supported on a double track with a standard gauge of 1,435 mm (4' 8") (international gauge), built on ballast and concrete sleepers in most of the route, although in some sectors the track support is carried out on concrete slabs. avenues or dense urban areas. There are no underground sections in the system.[72]​ The curves, slopes and turning radii have been designed in accordance with metropolitan railway standards and adapted to the topographic conditions of the Aburrá Valley.[73]​.

The system's electrical supply is provided by rigid catenary "Catenary (railway)") suspended over the tracks. This infrastructure is made up of poles, metal arms, insulators, tension cables, rectification substations, medium voltage distribution networks and grounding systems. The electrical substations are located at strategic points along the route and supply sections defined by automatic sectioning. The operating voltage is adjusted to the specifications of the rolling stock and is monitored in real time from the control center.[74]​[75]​.

The metro stations are distributed along both lines and are classified into level stations and elevated stations, depending on the configuration of the terrain. All have covered platforms, controlled access, uniform institutional signage, turnstiles, lockers, surveillance cameras and technical lighting systems. Some stations, such as San Antonio "Estación San Antonio (SITVA)"), San Javier "Estación San Javier (SITVA)") and Industriales "Estación Industriales (Medellín Metro)"), among others, allow physical connection with other SITVA modes through gateways "Pasarela (bridge)"), stairs or shared integration modules. Several of them also have cycle parking, street furniture and pedestrian access suitable for people with reduced mobility.[76]​[77]​[78]​[74]​.

The system has independent switching yards and maintenance workshops for each line. The main yard of the system is located in the municipality of Bello "Bello (Antioquia)"), next to the Niquía station "Estación Niquía (Metro de Medellín)"). This space houses the operations center for the rolling stock of Line A and has parking areas, auxiliary roads, track change devices, administrative buildings, warehouses and logistics areas. On line B, the yard is located to the west of the San Javier station and performs readiness and operational reserve functions.[79]​[80]​.

The metro workshops are equipped with inspection pits, overhead cranes, lifting platforms, washing stations, technical dispensers, hydraulic and electrical networks, parts warehouses, compressed air systems, technical control laboratories and specialized offices. The infrastructure of these spaces responds to regulatory requirements for urban railway systems and is constantly being adapted and expanded in accordance with the growth of the fleet and major maintenance needs.[81]​[79]​.

The entirety of this infrastructure is articulated through a railway signaling and centralized traffic control system, with electronic interlocks, beacons, railway traffic lights, detection devices, on-board telecommunications and fiber optic communication networks. These physical systems allow the safe, synchronized and continuous operation of trains on both lines, under the supervision of the Comprehensive Control Center of the Medellín Metro.[82]​[83]​[84]​[81]​.

tram system

The SITVA tram system is made up of line T "Line T (Medellín Tram)") of the Ayacucho tram, a medium-capacity railway corridor built for the operation of low-floor trams in urban environments with high population density and inclined topography. This line functions as a transversal axis of the integrated system and connects the center of Medellín with eastern sectors of the city, combining railway infrastructure, specific stations, electrical systems, yards and dedicated workshops.[85]​[86]​[87]​.

Line T runs on a single track with sections of double track at crossing points and at some stations. The gauge is standard 1435 mm (4' 8") and the support structure is composed of plate-reinforced concrete slabs, on which the rails are fixed using elastic fastening systems. Embedded technical channels have been arranged along the route to house electrical ducts, communications networks and surface drainage systems. The route includes steep slopes and reduced turning radii, designed especially for tram technology. adopted.[88][89][90]​.

The electrical supply is provided by a rigid catenary suspended over the central axis of the track, composed of aluminum profiles with copper conductors and fixed suspension systems. This infrastructure is powered from dedicated electrical substations, with converters, transformers, high capacity switches, protection systems and medium voltage distribution networks. The operating voltage is calibrated for low-floor rolling stock and is monitored from the system control center.[91]​[92]​.

The stations of the tram system are level platforms, with access structures designed to guarantee step-free boarding, approach ramps and tactile signage. Each station has light roofing, institutional signage, street furniture, technical lighting systems, fare validators and user information devices. Most stations are located on the central axis of the road and are delimited by fixed dividers, with protected or controlled pedestrian access. Some stations, such as San Antonio and Miraflores, are physically integrated with other SITVA modes.[93][86]​.

The system has its own workshop and patio, located in the Miraflores sector, next to the homonymous station. This technical complex houses the maintenance and operational management facilities of the tram system. The workshop has inspection pits, overhead cranes, mobile platforms, washing areas, technical dispensers, component warehouses, hydraulic and electrical systems, diagnostic laboratories and technical offices. The adjacent patio includes preparation routes, parking areas, perimeter fencing, surveillance systems and maneuvering platforms for overnight parking of the units.

The operation of the tram system is coordinated from the Comprehensive Control Center, through a dedicated signaling and traffic control system, which includes railway traffic lights, proximity sensors, electronic interlocks, traffic light priority systems at intersections, on-board telecommunications and fiber optic communication networks. This infrastructure allows the safe, continuous and synchronized operation of trams in complex urban conditions, with permanent supervision and the capacity to respond to technical eventualities or road contingencies.[94]​[93]​.

cable car system

The SITVA cable car system is made up of lines H "Line H (Metrocable of Medellín)"), J "Line J (Metrocable of Medellín)"), K "Line K (Metrocable of Medellín)"), L "Line L (Metrocable of Medellín)"), M "Line M (Metrocable of Medellín)") and P "Line P (Metrocable) of Medellín)") of the Medellín Metrocable, a cable transportation network designed to connect hillside areas with the rest of the system. Each line operates independently and is made up of stations, towers (commonly called "pylons"), carrier-tractor cables, cabins, transfer terminals, electromechanical subsystems, control centers, and auxiliary components.[4][95]​.

The system lines are made up of sections of aerial cable supported by high-rise metal towers, founded on concrete bases anchored in steep terrain. These towers, distributed along the route, allow the tension, alignment and separation of the cables to be maintained depending on the topography and the desired trajectory. The structure also includes compensation stations and intermediate deceleration towers. The carrier-tractor cables are made of galvanized steel, with coatings and automatic guidance systems that guarantee operational stability and safety in the movement of the cabins.[96]​[97]​.

Each line has a departure station, one or more intermediate stations and a terminal station. Unlike tourist systems, the intermediate stations in the Metrocable not only serve for deceleration or assisted evacuation, but also actively function as passenger boarding and disembarkation points. The infrastructure of these stations varies depending on their location, but generally includes level or elevated platforms, controlled access areas, pedestrian walkways, approach ramps, lightweight roofs, institutional signage, and covered waiting areas. Some stations have additional elements such as elevators, natural ventilation systems, cycle parking or physical integration with other SITVA lines.[98]​[99]​[100]​.

The electrical power system is based on traction motors located in the drive stations of each line, along with its own substations, power converters, emergency systems and internal distribution panels. The stations have automatic coupling and uncoupling mechanisms for cabins, electromagnetic brakes, evacuation devices, technical cabins and redundant power systems. The voltage and traction capacity are calibrated according to the number of cabins and the slope of each line.[97][101][102]​.

The Metrocable workshops are located mainly in the motor terminal stations, and are designed to accommodate major maintenance tasks and comprehensive diagnosis of electromechanical components. These facilities include inspection pits, lifting equipment, engine test benches, devices for controlling friction in pulleys, spare parts warehouses and technical cabin cleaning stations. The equipment allows structural review processes of the clamping clamps, roller alignment, brake calibration, and replacement of critical components with precision tools.[103]​[104]​.

Bus rapid transit lines

SITVA has a rapid transit bus network, made up of three lines operated by the company Metroplús S. A., which integrate exclusive or preferential corridors for articulated and standard buses. In total, the system has about km of segregated infrastructure at the surface level. Lines 1 and 2 are built on trunk axes with rigid separators and central stations with platforms aligned at the boarding level, along the west of Medellín, mainly in the commune 16 Belén. Line 1 runs between the Universidad de Medellín station and the Aranjuez station, in the center-north of the city, with an approximate length of 12.5km and twenty stations. Line 2 operates in the opposite direction, over a large part of the same corridor.[106]​.

This system has three lines in operation that total approximately 26km of dedicated or prioritized infrastructure built at surface level. These lines are distinguished by their degree of segregation with respect to mixed traffic, the layout of boarding stations, the type of traffic light control and access systems. In all corridors, articulated and standard vehicles with low-emission engines are used, powered by clean diesel type EuroV or higher, equipped with doors at platform level and air conditioning systems.[107]​.

Line 1 "Line 1 (Metroplús)"), partially inaugurated in 2011 and completed in 2013,[108] its route extends from the Universidad de Medellín station "Estación Universidad de Medellín (Metroplús)"), in the commune 16 Belén "Belén (Medellín)"), to the Parque de Aranjuez station "Estación Parque de Aranjuez (Metroplús)"), with an approximate total of 12.5km and 20 stations. The corridor is located exclusively on 30A Avenue (30th Street), where it circulates in a central lane segregated with New Jersey type barriers, while mixed traffic is channeled to side lanes. Central stations are designed with bus-level platforms, turnstiles, adaptive signage, metal covers, ramps, and safe pedestrian connections via elevated bridges.[109]​[110]​.

Line 2 "Line 2 (Metroplús)") operates on a pre-trunk corridor of approximately 13.5km, whose layout largely coincides with that of line 1, but presents substantial differences in its configuration. Unlike this, it uses preferential lanes with partial traffic light priority and shared operation sectors with private vehicles. It has 15 pre-trunk type stations, built on adapted side platforms, with elevated platforms, access ramps for people with reduced mobility, modular metal covers and access signage from the pedestrian route.[107]​.

Line O "Line O (Metroplús)") was put into operation in 2022 and has an approximate length of 9.2km. Its infrastructure connects the La Palma station "Estación La Palma (Metrolús)"), located in commune 16 Belén of Medellín, with the Caribe interchange "Estación Caribe (Metro de Medellín)"), in commune 5 Castilla "Castilla (Medellín)"). This pre-trunk corridor uses mixed-use side roads with operational priority for the system's buses, supported by access controls, differentiated horizontal signage, demarcated lanes and eco-station-type stations with elevated platforms, lightweight covers, LED-type lighting and digital information panels.[107]​[111]​.

Cycle parks

The SITVA has a network of cycle parks distributed in various stations of the metro, tram and bus rapid transit system. These infrastructures allow users to combine the use of bicycles with mass public transport, which favors active mobility and intermodality in the Aburrá Valley.[112]​.

The cycle parks are designed to house private bicycles, and are clearly differentiated from the stations of the EnCicla system, which are intended for the public loan of bicycles.[113]​.

According to the Medellín Metro, the bicycle parking infrastructure includes metal modules covered with inverted U-type supports, lighting points and surveillance cameras, as well as accesses with security personnel or electronic control mechanisms, depending on the location.[114]​ In some cases, the modules are located in internal areas of the stations, while in others they are located in adjacent spaces, clearly marked as bicycle areas.[115]​.

The design of these spaces obeys safety and accessibility criteria derived from the Metropolitan Bicycle Master Plan (PMB 2030), which establishes the goal that 10% of trips in the Aburrá Valley be made by bicycle. By 2019, nearly 204 cycle parks had already been installed, with an average capacity of 10 bicycles per module distributed in the municipalities of the Aburrá Valley.[116]​.

Line L "Line L (Medellín Metro)") does not provide service on the first business day of each week.

SITVA has different vehicles that adjust to the typologies of each of its lines:

• - MAN type train on Line A "Line A (Medellín Metro)") and Line B "Line B (Medellín Metro)") in a configuration of three cars per train.

• - CAF type train on Line A "Line A (Medellín Metro)") in a configuration of three cars per train.

• - Poma Gondola on Line K "Line K (Medellín Metro)"), Line J "Line J (Medellín Metro)"), Line L "Line L (Medellín Metro)"), Line H "Line H (Medellín Metro)"), Line M "Line M (Medellín Metro)") and Line P "Line P (Medellín Metro)").

• - Translohr NTL STE5 tram on Line T "Line T (Medellín Metro)").

Currently, access to SITVA is mainly done through the Cívica smart card, which allows the use of an integrated fare system in all modes of transport in the system. Previously, you could also enter with tickets for one or more trips, which were introduced at the "Winlass (access barrier)" turnstiles at the stations; However, this system was progressively replaced until its elimination in 2007.

On December 10, 2020, the launch of the Cívica Pay mobile application was announced,[117]​ which allows you to generate a QR code as an alternative means of access and make online recharges without mobile data consumption.[118]​ However, this mechanism does not apply to entry to feeder buses, where only the Cívica card is accepted.

Las tarifas del sistema se establecen anualmente mediante resolución oficial emitida por el Área Metropolitana del Valle de Aburrá, en su calidad de autoridad de transporte. Estas tarifas son de obligatorio cumplimiento para todos los modos integrados en el SITVA y pueden ser modificadas de acuerdo con criterios técnicos, financieros y de política pública.[119]​.

La tarjeta Cívica permite acceder a diferentes tipos de tarifas según el perfil del usuario y el modo de transporte. Los usuarios que registran su tarjeta pueden acceder a tarifas preferenciales, que incluyen subsidios para estudiantes, adultos mayores, personas con discapacidad y beneficiarios del SISBEN. Estas tarifas diferenciales son posibles gracias al sistema de personalización, el cual asocia el perfil socioeconómico del usuario a la tarjeta.[120]​.

Las siguientes tarifas comenzaron a regir a partir del 1 de enero de 2025:[121]​.

Estas tarifas del Cable Arví comenzaron a regir desde el 11 de abril de 2025.[122]​.

Los usuarios con tarjeta personalizada también pueden acceder a funcionalidades como carga anticipada, recarga en línea, registro de viajes, recuperación de saldo en caso de pérdida o daño, y consulta de reportes de uso mediante la app o la plataforma web Cívica.[123]​.

Previous adjustments and tariff logic

The 6.2% rate increase applied from 2025 was due to an annual technical study that determined adjustments of 220COP for frequent users, 160COP for seniors and 70COP for students. Integrated routes increased on average by 240COP, while metropolitan routes increased by 200COP, with a specific adjustment of 250COP for the municipality of Barbosa.[124][125]​.

The SITVA tariff logic seeks to encourage modal integration through free transfers within the deadlines established by the Aburrá Valley Mobility Master Plan (2020-2035), which promotes favorable tariff mechanisms in transfer times of less than 90 minutes. Likewise, it establishes differentiated rates for priority groups, such as students, older adults and people with disabilities, through socioeconomic controls associated with the personalized Civic Card.[126]​[127]​.

Historical evolution of rates

In addition to the technical criteria applied annually, the following table summarizes the rate increases applied in the SITVA system between the years 2020 and 2025, with details for frequent users, special profiles and integrated modalities. This table may change annually as new data is released by relevant authorities:.

Note: for some years no data disaggregated by profile or modality was found..

Criticisms and citizen requests

Various social organizations and student groups have requested over the years the expansion of tariff benefits, as well as a review of the automatic tariff updating system. In 2023, protests were reported over the suspension of student subsidies due to delays in the reporting of enrollment or failures in the integration of institutional databases.[133]​.

Other large investments will be supported mostly with the Metro's own resources and seek to extend and improve the quality of life among all the inhabitants of the Aburrá Valley.

• - The 80 Metro is a work that will run from the Caribe station to the Aguacatala station or vice versa, in a time of 32 minutes, passing through a total of 14 stops and 3 stations. The corridor covers 13.25 km with a route from the Caribe Metro station, passing through transversal 73, then along 65th street to the Faculty of Mines sector where it takes avenue 80-81, closing the circuit at the Aguacatala station in the south of the city of Medellín.[134]​.

• - The Commuter Train, or River Train, which serves to move cargo, solid waste and passengers, whose study stage began in December 2009, it is planned to obtain the resources for the work at the hands of the Metro law, this $4.2 billion project, of which the region contributes 30% ($1.26 billion) and co-financing by public debt from the National Government of the remaining 70% ($2.94) is expected. trillion).[135]​.

• - Currently, the repowering of the first MAN type trains is being carried out, which have already completed 25 years of service in the system. This project is planned to be completed in approximately 24 months, carried out entirely with its own resources and with local labor.

• - The mayor of Medellín, at the hands of Daniel Quintero Calle, in 2021 signed an agreement to begin the pre-feasibility and feasibility studies of a new railway line, which is planned to be 100% underground, and whose letter would be line S.[136]​[137]​[138]​.