A Terminal Operating System, or TOS, is a key part of a supply chain and primarily aims to control the movement and storage of various types of cargo in and around a port or marine terminal. The systems also enables better use of assets, labour and equipment, plan workload, and receive up-to-date information.

Terminal operating systems generally fall under one of two categories depending on supported cargo type, namely, containerized or non-containerized. Large container terminals typically require yard management functionality in a TOS, whereas bulk dry and liquid cargo terminals do not.

Terminal Operating Systems often use other technologies such as internet, EDI processing, mobile computers, wireless LANs and Radio-frequency identification (RFID) to efficiently monitor the flow of products in, out and around the terminal. Data is either a batch synchronization with, or a real-time wireless transmission to a central database. The database can then provide useful reports about the status of goods, locations and machines in the terminal.

The objective of a terminal operating system is to provide a set of computerized procedures to manage cargo, machines and people within the facility to enable a seamless link to efficiently and effectively manage the facility.

Terminal operating systems can be stand alone systems, managed as a service or use cloud technologies.

In its simplest form, the TOS can data track cargo in and out of a terminal.

Functions

A Terminal Operating System may be used to do some or all of the following functions:

Shipping

Terminals requiring various types of ship transport
Container terminals using Containerization for LO-LO (lift on Lift Off) operations such as these require plans for efficiently loading and unloading Container ships docked within their Terminal.

A port using RO-RO ships require plans for efficiently loading automobiles, trucks, semi-trailer trucks, trailers or railroad cars that are driven on and off the ship on their own wheels.

Rail

Terminals that require the arrival and departure of cargo on trains such as container trains or bulk cargo.

Road

Handle the receival and release of Cargo for transshipment from other modes of transport or storage.

Yard management

Creating Shipping list or keeping track of Warehouse levels. Tracking machine moves around the terminal.

Invoicing/Reporting

Invoicing and providing reports for internal and external use.

Inventory

Keeping track of Inventory and storing its movements.

Cargo Type

Various types of cargo can be managed dependent of terminal type. This includes containers, dry bulk, liquid bulk, break bulk and vehicles (roll-on/roll-off).

External Clients

Terminals may wish to communicate with the following through their Terminal Operating System:

  • Terminal operators
  • Freight forwarder
  • Shipping line or shipping agent
  • Container operators
  • Port authority
  • Pilots, tugs and mooring gang
  • Cargo owner (e.g. oil companies)
  • Customs office

Vendors/Suppliers

There are several suppliers of Terminal Operating Systems available.

See also

Electronic data interchange

References

  1. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 "Best Terminal Operating Systems (TOS) of 2023". Retrieved 24 January 2023.
  2. 1 2 3 4 5 "Best Terminal Operating Systems (TOS) - 2021 Reviews & Comparison". sourceforge.net.
  3. "Home | TBA Group". tba.group.
  4. 1 2 3 4 5 6 7 8 9 10 11 12 13 "Best Terminal Operating Systems (TOS) in 2021 | G2". 2021-08-13. Archived from the original on 2021-08-13.
  5. "TCS DynaPORT".
  6. "Best Terminal Operating Systems (TOS)". Retrieved 24 January 2023.
  7. "Intermodal Terminals". www.inform-software.com. Retrieved 2023-04-27.
  8. "Find top products in Terminal Operating Systems (TOS) category". Retrieved 24 January 2023.
  9. "Tideworks Technology | Terminal Operating Systems". Tideworks. Retrieved 2023-04-27.
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