Chapter 1. Introduction

This chapter introduces WAP and SMS in general terms, and explains the role of the gateway in WAP and SMS, outlining their duties and features. It also explains why the Kannel project was started in the first place, and why it is open source.

With hundreds of millions of mobile phones in use all over the world, the market for services targeted at mobile users is mind-bogglingly immense. Even simple services find plenty of users, as long as they’re useful or fun. Being able to get news, send e-mail or just be entertained wherever you are is extremely attractive to many.

The hottest technology for implementing mobile services is WAP, short for Wireless Application Protocol. It lets the phone act as a simple web browser, but optimizes the markup language, scripting language, and the transmission protocols for wireless use. The optimized protocols are translated to plain old HTTP by a WAP gateway.

Kannel is an open source WAP gateway. It attempts to provide this essential part of the WAP infrastructure freely to everyone so that the market potential for WAP services, both from wireless operators and specialized service providers, will be realized as efficiently as possible.

Kannel also works as an SMS gateway for GSM networks. Almost all GSM phones can send and receive SMS messages, so this is a way to serve many more clients than just those using a new WAP phone.

In addition, Kannel operates as Push Proxy Gateway , or PPG, making possible for content servers to send data to the phones. This is a new type of WAP service, and have many interesting applications. Usually servers know whether some data is new, not the users.

Open Source (http://www.opensource.org) is a way to formalize the principle of openness by placing the source code of a product under a Open Source compliant software license. The BSD license was chosen over other Open Source licenses by the merit of placing the least amount of limitations on what a third party is able to do with the source code. In practice this means that Kannel is going to be a fully-featured WAP implementation and compatible with the maximum number of bearers with special emphasis on SMSC compatibility. The Kannel project was founded by Wapit Ltd in June, 1999.

Overview of WAP

WAP, short for Wireless Application Protocol, is a collection of various languages and tools and an infrastructure for implementing services for mobile phones. Traditionally such services have worked via normal phone calls or short textual messages (e.g., SMS messages in GSM networks). Neither are very efficient to use, nor very user friendly. WAP makes it possible to implement services similar to the World Wide Web.

Unlike marketers claim, WAP does not bring the existing content of the Internet directly to the phone. There are too many technical and other problems for this to ever work properly. The main problem is that Internet content is mainly in the form of HTML pages, and they are written in such way that they require fast connections, fast processors, large memories, big screens, audio output and often also fairly efficient input mechanisms. That’s OK, since they hopefully work better for traditional computers and networks that way. However, portable phones have very slow processors, very little memory, abysmal and

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Nokia WAP and SMS gateway manual Introduction, Overview of WAP

WAP and SMS gateway specifications

Nokia has long been a pivotal player in the telecommunications industry, and its contributions to mobile communication technology are numerous. Among these contributions, the Nokia WAP and SMS Gateway stand out as essential elements in enabling mobile internet access and messaging services in the early days of wireless communication.

The Nokia WAP (Wireless Application Protocol) gateway was introduced to facilitate mobile access to the internet and to allow users to interact with web services through their mobile devices. Built on a client-server architecture, the WAP gateway acted as a bridge between the mobile network and the internet, translating traditional web content into a format that mobile devices could effectively render. This conversion was crucial, given the limitations of early mobile devices regarding screen size, processing power, and network bandwidth.

One of the main features of the Nokia WAP gateway was its ability to provide users with real-time access to information such as weather updates, news, and stock prices. By using a lightweight markup language called WML (Wireless Markup Language), the gateway allowed developers to create mobile-friendly websites that could be accessed via WAP-enabled devices. This marked a significant step toward the mobile internet we know today, creating a new realm of possibilities for developers and users alike.

Another critical aspect of Nokia's offering was the SMS (Short Message Service) gateway. The SMS gateway provided a robust platform for sending and receiving text messages across various mobile networks. It enabled seamless communication between devices, regardless of the underlying technology. This feature made SMS a popular choice for both personal communication and business applications, such as marketing campaigns and customer service notifications.

The Nokia SMS gateway utilized established protocols, such as SMPP (Short Message Peer-to-Peer), to ensure reliable message delivery and efficient interaction between SMS applications and mobile networks. Its characteristics included scalability, allowing service providers to handle large volumes of messages, and flexibility to integrate with existing applications and systems.

In summary, the Nokia WAP and SMS gateway played a vital role in the evolution of mobile communication. With features that enabled mobile internet access and streamlined messaging capabilities, these technologies laid the groundwork for the mobile-centric world we live in today. Their legacy continues to influence mobile application development and the broader telecommunications landscape. As the industry progresses, the innovations introduced by Nokia serve as a reminder of the foundational technologies that paved the way for modern mobile experiences.