Inventory management software

Inventory management software is software used to record, track, and manage inventory levels, orders, sales, deliveries, and related stock movements.[1][2] It is used in fields including retail, warehousing, distribution, and manufacturing.[2] In manufacturing environments, such software may also be used alongside production-planning systems to support work orders, bill of materials, and related planning records.[3] Inventory management software is intended to help organizations reduce stock shortages and limit overstocking by maintaining more systematic records of stock and stock movement.[4]

Functions

Inventory management software typically includes functions for monitoring stock quantities, recording receipts and issues, and supporting replenishment decisions. Common functions include maintaining stock records across one or more locations, tracking goods as they move between suppliers, warehouses, and retail sites, and supporting warehouse activities such as receiving, picking, packing, and shipping.[5]

Reorder point

Many inventory systems support the use of a reorder point, that is, a stock level at which replenishment should be initiated.[6] Reorder-point methods are part of broader inventory-control practice concerned with determining when to replenish stock and in what quantity.[7]

Product identification and tracking

Inventory systems commonly identify items through barcodes, serial numbers, lot numbers, or similar markers. More recent systems may also use radio-frequency identification (RFID), networked sensors, and other automated identification technologies to improve traceability and reduce manual data entry.[2][8][9]

History

The Universal Product Code (UPC) was adopted as a standard in 1973, and the first retail scan of a UPC-marked product took place in June 1974 at a Marsh supermarket in Troy, Ohio.[10][11][12] The spread of barcode systems made machine-readable stock records more practical for retailers and later for other sectors.[13]

The increasing availability of personal computers and business software in the early 1980s also made computerized record-keeping more accessible. Database, spreadsheet, and other business applications became more widely available on relatively inexpensive hardware, making software-based inventory records increasingly practical for firms that had previously relied on manual systems.[14]

More recent inventory management systems have incorporated technologies such as barcode scanning, RFID, and the Internet of things (IoT), while also facing integration challenges in multi-location and enterprise settings.[2]

Use in manufacturing

In manufacturing, inventory management software is often used together with production planning and enterprise resource planning (ERP) systems. Such systems may support material planning, bills of materials, production activity control, and related functions used to coordinate raw materials, work in process, and finished goods.[15]

Deployment and integration

Inventory management software may be installed locally or delivered as software as a service. In larger organizations, inventory functions are often integrated with wider transaction-processing or ERP systems that link sales, production, warehousing, finance, and logistics.[16][17]

See also

References

  1. ^ Lesonsky, Rieva (1998). "Tracking Inventory". Entrepreneur Magazine.
  2. ^ a b c d Madamidola, Olugbenga Ayomide; Daramola, Oladunni Abosede; Akintola, Kolawole Gabriel; Adeboje, Olawale Timothy (2024). "A Review of Existing Inventory Management Systems" (PDF). International Journal of Research in Engineering and Science. 12 (9): 40–50.
  3. ^ Jacobs, F. Robert; Berry, William Lee; Whybark, D. Clay; Vollmann, Thomas E. (2011). Manufacturing Planning and Control for Supply Chain Management. McGraw-Hill Professional. ISBN 978-0-07-175032-5.
  4. ^ "Operations research: Resource allocation, optimization, and modeling". Encyclopædia Britannica. Retrieved 2 April 2026.
  5. ^ Zwass, Vladimir. "Information system: Operational support and enterprise systems". Encyclopædia Britannica. Retrieved 2 April 2026.
  6. ^ "Operations research: Resource allocation, optimization, and modeling". Encyclopædia Britannica. Retrieved 2 April 2026.
  7. ^ "Operations research: Resource allocation, optimization, and modeling". Encyclopædia Britannica. Retrieved 2 April 2026.
  8. ^ Tejesh, B. Sai Subrahmanya; Neeraja, S. (2018). "Warehouse inventory management system using IoT and open source framework". Alexandria Engineering Journal. 57 (4): 3817–3823. doi:10.1016/j.aej.2018.02.003.
  9. ^ Zwass, Vladimir. "Information system: Computer software". Encyclopædia Britannica. Retrieved 2 April 2026.
  10. ^ Brown, Stephen A. (14 August 2001). "A History of the Bar Code". In Whaples, Robert (ed.). EH.Net Encyclopedia. Retrieved 2 April 2026.
  11. ^ Weightman, Gavin (23 September 2015). "The History of the Bar Code". Smithsonian Magazine. Retrieved 2 April 2026.
  12. ^ "The History of GS1 Barcodes: First Scan to QR Code Future". GS1 GO Customer Service Portal. GS1. 8 July 2025. Retrieved 2 April 2026.
  13. ^ Brown, Stephen A. (14 August 2001). "A History of the Bar Code". In Whaples, Robert (ed.). EH.Net Encyclopedia. Retrieved 2 April 2026.
  14. ^ "Operations research: Computers and operations research". Encyclopædia Britannica. Retrieved 2 April 2026.
  15. ^ Jacobs, F. Robert; Berry, William Lee; Whybark, D. Clay; Vollmann, Thomas E. (2011). Manufacturing Planning and Control for Supply Chain Management. McGraw-Hill Professional. ISBN 978-0-07-175032-5.
  16. ^ Zwass, Vladimir. "Information system: Operational support and enterprise systems". Encyclopædia Britannica. Retrieved 2 April 2026.
  17. ^ Zwass, Vladimir. "Information system: Computer software". Encyclopædia Britannica. Retrieved 2 April 2026.

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