Role of Internet technology in the future mobile data system
Where is your smartphone right now?
I know you know that and the fact that everyone knows where their smartphone speaks for itself.
Our cell phones have changed our lives. Local searches, online shopping, instant messaging, video games like Minecraft and social media sharing, whatever you want.
Humans can no longer live without their smartphones!
The Internet and mobile telephony are two of the fastest growing activities in the telecommunications industry. By definition, the mobile data system consists of a network of devices requesting information and a server responding to that request.
Here are some astounding mobile internet usage statistics that will blow your mind.
These compelling statistics provide reasonable justifications why telecom providers are looking for ways to develop new services that encourage consumers to use more without emptying their pockets.
It is important to know how Internet technology plays its role in upgrading the mobile data systems of the future.
How internet technology will affect the future mobile data system
What future for the mobile data system?
Here are four ways the Internet of technology can influence the future of mobile Internet.
1. IP services within mobile networks
The quality of mobile IP services in wireless communication networks is really important.
Over the past decade, public land mobile network (PLMN) operators have started providing data services to data hungry consumers. Currently available solutions for data transfer over the GSM (Global Mobile Communication System) network include:
- Short Message Service (SMS) – allows the exchange of e-mails.
- Low Speed Circuit Switched Data (CSD) – allow Internet access.
The biggest limitation of using CSD is its low bandwidth of only 14.4 kbps and sub-optimal use of the air interface. A quick fix is to upgrade the CSD to High Speed Circuit Switched Data (HSCSD), known as Scalable Technology, ensuring the high speed implementation of GSM for data transmission.
This extension instantly increases transmission capacity by assigning up to eight CSD channels to a single user.
But wait, it’s not without limits.
High-speed circuit-switched data offers key advantages in faster data transmission over GSM CS, but it also has some disadvantages.
- First, the high speed circuit switched data configuration is quite expensive.
- The move to high throughput circuit switched data may include security.
- This solution still uses the connection circuit of the GSM mechanism, which is relatively inefficient to cope with the burst of computer data traffic produced by Internet applications.
For example, if you were trying to download a large file, HSCSD might occupy all channels whereas typical web browsing would automatically leave channels that are not typically used.
Once the channels are occupied by the HSCSD, this directly affects the cost of the service even if the user does not use them. This develops additional pressure on consumers, which is why most telecom operators and service providers do not use it.
A safer option explained
To overcome this problem, GSM operators are required to deploy a General Packet Radio Service (GPRS), a packet data carrier service that supports as well as the X.25 protocol.
With this, an expected revolution will be the migration to the Third Generation Mobile System (UMTS) which will encompass significant changes in the use of terminal technology.
2. Mobility within the Internet
As portable devices such as smartphones, laptops, and personal digital assistants enter the tech ecosystem, the demand for access to the internet and tech-independent corporate intranets has also increased.
How it works?
Today’s ISPs are able to cope with the unique needs of users as they offer a set of multiple dial-up services such as secure access to corporate intranets and remote Internet access. Almost all of the existing ISPs are connected to each other in confederations (eg iPass and GRIC with the intention of providing wider access at a lower price).
All of these advancements have proven to be hugely beneficial for the on-the-go businessman, as he can access the same home services with his home ISP without having to subscribe to new services to make remote calls to his home town or city. to watch the best movies about world war.
All you need to do is establish a dial-up connection to your nearest Network Access Server (NAS), which is usually controlled by one of the confederation members.
More convenience for mobile internet users
Another development underway is the availability of wireless access for mobile internet. This allows them to stay online 24 hours a day and even while on the go, ensuring seamless customer mobility.
The options included in this ongoing evolution are low cost WLAN solutions that are generally suitable for indoor environments (eg, IEEE 802.11, Bluetooth, homeRF, etc.). Another option is to exploit the wireless coverage offered by current cellular operations in outdoor areas.
Internet service provider Metricom currently provides IP services to metropolitan areas in the United States through an unlicensed broad-spectrum wireless system. It is expected that more mobile ISPs will be seen in the near future inside and outside the United States.
3. Advanced IP mobility protocols
A standardized solution proposed to manage and improve terminal mobility between IP subnets is Mobile IP, also known as MIP. It operates at the network layer level and allows a host to invisibly change its home node to the Internet.
This functionality also allows it to manage mobility between many media such as dial-up links, local area networks and wireless channels. A key feature of MIP is that it cannot be detected by applications, which means that no modifications are required to enable mobility.
However, the mobile node (MN) can still communicate through its home address without exposing its home location on the Internet. It also means that all current TCP sessions allow uninterrupted interactions with wireless terminals.
Triangular MIP routing
A major limitation of basic MIP is related to the problem known as triangular routing. This problem is caused by the fact that all the packets are moved to the mobile node and have to go through the home agent resulting in increased load on the home network,
One possible remedy to resolve this problem is routing optimization. But again, they would require every host to level up. It just means that hosts might not be efficient until they have upgraded after a failure event like the evolution of the Internet Protocol IPv6.
4. Evolutionary trends
The recent development of mobile applications and improvements in mobile data services are heading towards the coexistence of many overlaid networks.
a) Superimposed networks
Currently, IP mobility services for consumers are provided through many networks such as GSM, GPRS, MAN wireless and satellite. However, you’ll be surprised to know that none of these are a universal solution, as each solution focuses on a particular application and has distinct characteristics such as bandwidth, delay, and geographic coverage.
According to Dissertation Assistance UK, the best way to provide a wide range of services at low cost is to allow seamless roaming of users among all wireless networks. This is a favorable situation for both the user and the service provider.
b) Interworking between superimposed networks
Currently, there is no integration between current mobile data systems. In addition, each data network has its own user authentication and mobility procedures.
Therefore, the provision of transparent mobility within overlapping networks cannot take place. This means that each time a user starts to roam to a different wireless domain; it is assigned to a new identity (for example an IP address). With this, the old active communication sessions are lost.
What is the solution ?
A common protocol that can handle cross-domain user mobility is the answer.
c) A New Perspective on Intellectual Property
In future mobile data systems, IP will play a central role in providing faster and more cost effective interworking capability within overlay networks.
In addition, telecom operators and ISPs should work closely with authorized bodies such as the Internet Engineering Task Force (IETF) and the 3rd Generation Partnership Project (3GPP). The reason is simple and straightforward. These are standard organizations looking for new possibilities to use IP and maintain their mobility and security over different wireless networks.
In conclusion, users of Internet and mobile data technologies are experiencing exceptional growth. Telecommunications service providers are looking for new ways to generate revenue.
It has been noted that telecom operators and service providers are looking for something that can improvise their ability to completely transform mobile data systems, giving them more mobility and security while keeping costs low at all times.
The application of Internet technology is currently the most attractive option to achieve this goal.