The Chinese Train Control System (CTCS, ''simpl.chinese:'' 中国列车控制系统) is a train control system used on railway lines in

People's Republic of China China, officially the People's Republic of China (PRC), is a country in East Asia. It is the world's List of countries and dependencies by population, most populous country, with a Population of China, population exceeding 1.4 billion, slig ...

. CTCS is similar to the

European Train Control System The European Train Control System (ETCS) is the signalling and control component of the European Rail Traffic Management System (ERTMS). It is a replacement for legacy train protection systems and designed to replace the many incompatible ...

(ETCS). It has two subsystems: ground subsystem and onboard subsystem. The ground subsystem may based on

balise A balise is an electronic beacon or transponder placed between the rails of a railway as part of an automatic train protection (ATP) system. The French word '' balise'' is used to distinguish these beacons from other kinds of beacons. Balises a ...

track circuit A track circuit is an electrical device used to prove the absence of a train on rail tracks to signallers and control relevant signals. An alternative to track circuits are axle counters. Principles and operation The basic principle behind ...

, radio communication network (

GSM-R GSM-R, Global System for Mobile Communications – Railway or GSM-Railway is an international wireless communications standard for railway communication and applications. A sub-system of European Rail Traffic Management System (ERTMS), it is u ...

), and Radio Block Center (RBC). The onboard subsystem includes onboard computer and communication module.

CTCS Levels

There consists of 5 different levels (Level 0 to Level 5). Levels 2, 3, and 4 are back-compatible with lower levels.

CTCS Level 0 (CTCS-0)

For railway lines where operational speeds are below : * Track configuration:

Track circuit A track circuit is an electrical device used to prove the absence of a train on rail tracks to signallers and control relevant signals. An alternative to track circuits are axle counters. Principles and operation The basic principle behind ...

* Cab configuration: CTCS Universal Cab Signalling (UCS) + Train operating service unit (TOSU/LKJ) + Driver Machine Interface (DMI). Level 0 is used on lines with conventional trackside signalling. Train drivers follow trackside signals primarily, with cab signals as back-up. UCS receives train fixed block occupation signals from track circuits and is shown as cab signals using digital signal processes. TOSU/LKJ is used to supervise speed limits and can only advise train drivers on braking curves. The drives are mainly responsible for maintaining train speed protection.

CTCS Level 1 (CTCS-1)

For railway lines where operational speeds are below : * Track configuration: Track circuit +

Balise A balise is an electronic beacon or transponder placed between the rails of a railway as part of an automatic train protection (ATP) system. The French word '' balise'' is used to distinguish these beacons from other kinds of beacons. Balises a ...

*Cab configuration: Primary cab signalling + ATP + Enhanced Safety Train Operation Supervision and Recording Device (LKJ) + DMI + Recording units + Balise Transmission Module Balises are installed in addition to track circuits. Automatic train protection (ATP) is enabled on CTCS level 1. Drivers use cab signals as primary signals. Train circuits are responsible for detecting track occupancy and integrity. Temporary speed restrictions, train positions and track data are provided intermittently.

CTCS Level 2 (CTCS-2)

For

high-speed railways High-speed rail (HSR) is a type of rail system that runs significantly faster than traditional rail, using an integrated system of specialised rolling stock and dedicated tracks. While there is no single standard that applies worldwide, lines ...

where operational speeds are below : * Track configuration: Track circuit (ZPW/UM) +

+ Lineside Electronic Unit (LEU) + Train Control Centre (TCC) + Temporary Speed Restriction Server (TSRS) * Cab configuration: ATP + Vital Computer (VC) + Specific Transmission Module (STM, for receiving track circuit information from non-CTCS-2 systems) + BTM + DMI + Speed Detection Unit (SDU) + Recording units The track circuit is used both for train occupation detection and movement authorization, its architecture is similar to TVM-300. Balises and track circuit serves to provide intermittent trackside information and automatic train protection (ATP) to cab equipment. Trackside signalling is not mandatory and can be replaced with cab signalling using DMI. LKJ can be equipped as redundancy on CTCS-0 lines. Minimum headways on CTCS-2 is 180 seconds. This system is compatible with ETCS-1.

CTCS Level 3 (CTCS-3)

For

high-speed railway High-speed rail (HSR) is a type of rail system that runs significantly faster than traditional rail, using an integrated system of specialised rolling stock and dedicated tracks. While there is no single standard that applies worldwide, lines ...

of above : *Track configuration: Track circuit (ZPW/UM) +

+ LEU + Radio block control (RBC) *Cab configuration: VC +

Radio transmission unit (GSM-R RTU) + BTM + DMI + SDU + Recording units CTCS-3 introduces

radio for bidirectional data transmission. Track circuits are used as a redundant system to CTCS-3. Train positions can be accurately calculated using balises and onboard odometers which are transmitted to Radio Block Centres (RBCs). Authorisation of train movement is created by RBCs and transmitted onto on-board cab equipment using GSM-R. Using both trackside equipment and onboard equipment, ATP can be achieved. Trackside signalling is not mandatory and can be replaced with cab signalling using DMI. It is considered to be a "quasi-moving-block" system. This is currently in use for all of the lines on China's high-speed railway system, with a backup system of CTCS-2. CTCS-3 is equivalent to ETCS-2.

CTCS Level 4 (CTCS-4) (proposed)

*Track configuration: Radio block control (RBC) *Cab configuration: VC + GSM-R RTU + SDU + DMI + Recording units + GPS (or other positioning systems) + Train integrity detection device It would feature the complete elimination of

track circuits A track circuit is an electrical device used to prove the absence of a train on rail tracks to signallers and control relevant signals. An alternative to track circuits are axle counters. Principles and operation The basic principle behind ...

, moving blocks and self-train-integrity-check, which would significantly reduce the number of conventional track signalling equipment needed. Train integrity would be completely detected entirely through CTCS-3. Data transmission would be performed on

or LTE-M. Trackside signalling is not mandatory and can be replaced with cab signalling using DMI. Currently, Level 4 is not in use on any tracks and exists only as a conceptual system equivalent to ETCS-3. It is being developed and defined by signalling manufacturers in China.

References

Railway signalling in China European Rail Traffic Management System Train protection systems {{PRChina-rail-transport-stub