What is Wipelot?

What is Wipelot?

WIPELOT product family, offers economical, practical wireless solutions in the concept of automation and location tracking, work safety and data measurement and analysis.

By the virtue of WIPELOT OTX Automation solutions instantly ambient temperature, humidity, gas, light etc., values may be measured and evaluated.

WIPELOT RTLS Location Tracking solutions in indoor or special locations accurately tracking personnel and/or equipment locations make assessments and carry out seasonal analysis.

WIPELOT ISG in the context of work safety enables instantly to be aware of the circumstances of individuals obliged to work under risky and dangerous environments and providing interference time periods creating industrial solutions.

WIPELOT product family from health to tourism, from safety to industry over widespread of branches produces valuable outcomes and creates positive gains in business processes.


  1. It provides safety and control in our work place.
  2. Informs the location of a worker experienced an accident and reduce the interference time to worker. Transforms work place into safe and secure place.
  3. Avoids labour force and time loss.
  4. Enables worker detection in case of emergency.
  5. When the humidity, temperature, gas etc., values in a work place rise up or reduce it announce it to responsible personnel.
  6. It prevents work place and environment from damages.
  7. Keeps the worker's circumstance under probation during working time.
  8. Tracks in which location, how long worker/equipment were occupied and collects data for use in personnel performance appraisal.







RFID - Radio Frequency Identification

General Outlook

Radio Frequency Identification (RFID) system refers to automatic tracking system composed by a silicon chip and a reader able to generate wireless communication system. RFID tags may be programmed to receive Electronic Product Code (EPC) like object information, record and forward. Data transfer is generated without any contact between silicon chip and reader.

How The System Is Operated?

Radio frequency waves scattered by the reader reach to antenna on RFID tag and activates the software on silicon chip. Silicon chip loading the information it contains to radio frequency it scatters resent to the reader and the reader selecting the information in coming radio frequency transforms into digital data..

Passive RFID Tag

It refers to a RFID tag not using battery. Passive tags receives the required power from the reader and for operation of silicon chip provides the required power. In the reader's service area investigates the information of tags situated. Whereas tag using the energy coming the energy coming from the signal transmitting the information it must send to the reader completes its function. Costs of passive tag are lower in proportion to active tags. It is more convenient for tracking low cost tags or for applications of near distance reading. Most commonly used tags are as follows; low frequency (LF) 125–134 KHz, high frequency (HF) 13.56 MHz, ultra high frequency (UHF) 860–960 MHz.

Semi Active Tags

It refers to a tag design receiving the signals sent from the reader likewise RFID tag, but while forwarding signal receiving energy from the peripheral battery. Compare to passive tag it gives faster respond. They can make reading from a farer distance. Most frequently used tags are as follows; 13.56 MHz, ultra intense frequency (UHF) 860–960 MHz.

Active RFID Tag

Active tags are RFID tags composing the contact with the reader and providing the required power for the operation of silicon chip. Active Tags may work over very long distances (~100 meters). Generally used in high value products or in ambient that requires to be monitored and tracked from far distances. Most commonly used tags are as follows; ultra intense frequency (UHF) 860–960 MHz, 2.45 GHz and super intense frequency (SHF) 5.8 GHz.

Asset Detection Models

General Outlook

WIPELOT is not restricted with location based tracking system. In addition, collecting real time data from all mobile entities by wireless receivers transmit, evaluate those data to the system and inform the outcome to responsible personnel. In high resolution real time location tracking: It refers to a combined system integration pertaining to instantly collecting location data of individuals and equipments instantly and in depth and to report as desired. In this system Wireless Receiver Technology or when required using GPS installation is completed in a fast and in minimum equipment.

Location Based status notification: In a district presence of various entities or missing entity determination system has been developed. Available for automatic warehouse count tracking of the region where the equipments are found or for person reporting located at the region.

Passage point perception: This is a perception transaction along a defined district or passage gates. Data related to whether the entities are at the region or not in case of any entry or exit it can make notification or can also trigger an alternative system. RFID - Radio Frequency Identification System is actively used in such perception method.

Remote perception and inspection: In addition to positional data of an entity, communication of present Mechanics with the external environment operational status from their interfaces and breakdown records may be derived, by means of the inserted receivers temperature, humidity, pressure, vibration, gas, movement, seismic values, images, illumination, mechanical tension, noise, speed, direction are measured and collected wirelessly. Evaluating those data equipment and vehicle care status, oil level and other critical data may be informed to responsible personnel in a real time basis, operated systems are directed in a real time basis. Thus, planned status controls are included into operation.

Wireless Sensor Technology

An Overall Outlook WIPELOT® with the aim of increasing telecommunication resolution, speed, coverage space and reduction of energy consumption applies IEEE 802.15.4 based "Wireless Sensor Network” and 2.4 technology and Ghz radio frequency determined by this technology benefits. This system which is developed and offered into application is operated without the need for any interference from the outside and possessing moveable, flexible and practically used design. Thus the user is becoming able to concentrate on tracking outcomes in certain instants and to which focused in reality.

How the System Works?

Generating required power from battery or natural energy resources by transformation possessing calculation and perception abilities small devices when having a data intended for convey making communication with each other through wireless connection conveys the data to the desired location.

Principal superiorities of wireless receiver webs are depicted down:

Primary features of wireless receiver webs are as follows; domestically processing ability, independent organization ability, casual contact with the environment, interconnected operation ability, small physical dimensions, flexibility and usage comfort. Remote monitoring is available for use in control web applications and broad range wireless webs constitute lower cost and power consumption. For long years operating by the batteries on them performs given telecommunication task. Receiver webs easily collects data in event diagnosis and in tracking, in location tracking and in domestic controls they are quite efficient.

Cable classical receivers if remained inadequate or impossible for application system solutions eliminating cable usage obligation are required and even in some cases seems inevitable. They realize the communication between themselves by low energy consumption. Wireless system design and entire web design are the essential advantages. Web feature different than a unilateral communication feature adds data flow oriented functions based on interactions.