Call Me & Callback Service

Call Me Service

Wifi’s USSD Call Me Service is part of USSD solution architecture which is highly scalable and convenient, designed for smooth navigation and user-friendly interactivity in a modular fashion which allows telecom operator to easily extend their USSD service portfolio with unique additional feature.

WiFi Networks “Call Me” service enables lacking credit pre-paid customers to send a free SMS message requesting to be called by the recipient, releasing formerly inaccessible revenue sources for network operators. USSD Call Me allows pre-paid subscribers to initiate USSD messages and petitions to other subscribers, through SMS, requesting to be called back and for free.

The call back request is sent by a USSD command including the phone number of the recipient, for instance:  *22#9346764076#. The receiving party receives a SMS with a message < Please call me back on "9866554159"> and in turn, the user receives a message acknowledging the successful execution of the service.

The option of entering a customized message from a USSD menu is also available to the user, such as < Hi, it's James. Could you please call me back on "9866554159"? Thanks! >. This too holds the option of entering mobile or fixed phone number to be called back.This service represents a powerful tool for out of credit prepaid customers.

Several ways of controlling the usage of service are accessible, including limiting the number of requests per user per day, by using fully configurable maintenance modules (Web portal, provisioning interfaces, etc.).

Key Features:

  • HTechnology
  • Flexibility
  • Time

MESSAGING

Key Features:

  • High-performance, build on most up to date technologies.
  • Supports TCP/IP, http (XML), UCP, SMPP, CIMD2 USSD, SS7, SOAP, RPC, UCIP, FTP and many more protocols.
  • Scalable and possibility of services in hosted mode.
  • Flexible and easy to configure - Web GUI for online menu definition.
  • Enhanced billing features.
  • Supports push/pull services.
  • Supports multiple connections (for redundancy and load sharing).