Background

Proposal

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Introduction

According to Dr. Michel Fattouche, “from 2G to 5G the name of the game was data communications speed.” Proposed 5G systems suggest a speed of 3Gbps which would currently satisfy needs and capabilities of any mobile in existence. We are sure that the future will bring higher speeds. For that reason, it is our vision to direct the new generation (6G) to a new scope and focus on restructuring the network.

We propose one single network that will allow all users in different corporations, resorts, hospitals, and industrial and educational institutions full control over the communications within their facilities with full interconnect ability with the operator.

In other words, the network of networks represents the block chain concept of decentralization of communications amongst all network elements, mainly the storage of data as well as data processing, nevertheless to mention the consolidation of the 6G Digital currency.

To do so, the focus of our research/work will be:

  • 1.How do we find a user if we do not rely on the registry of the operator?
  • 2.How will these users provide the security forces the ability to monitor calls?
  • 3.What billing system should be used?

It is natural for operators to oppose this system; however, just like when we introduced high speed WiFi in 2000 and they opposed it, the proposed concept will also prove how significant it will be to them with many benefits. The operators will become whole sellers that manage a far fewer number of high paying customers. They will leave the nickel and diming to the smaller organizations.

New Technologies/Areas of Research

A new Internet Protocol

Many achievements could be offered to users by introducing a new internet protocol such as:

  • The users can be mobile and can roam from one network to another.
  • There is no central registry for the users and therefore, they do not need to actively register with the network. This is done automatically.
  • The users can be located and can be connected to with sessions.
  • Something like domain name servers will dynamically know the route to the user.

Change of dial plan for a new global operating system to be identical to IP (register of DNS to provide a unique identity to each subscriber such as the national security number in the USA) to be more dynamic corresponding to mobile subscribers any where Demarcation between IP and a GSM call

The protocol should be backwards compatible to IPv4 and IPv6 There is a new protocol that eliminates routing tables (which will consequently reduce both software and hardware and cost) by putting all routing information in the packet header. It has its benefits and few challenges to overcome. It could be an interesting option for the network.

The new IP protocol will utilize the SDN, NFV, VNF, SD WAN, These technologies will certainly work together to make an overall programmable network where SDN virtualizes the network and NFV virtualizes the appliances.

Network of networks- Blockchain in Communications

Each facility will manage its own network and provide services to people who are on their premises. The facility will get a high speed link from an operator and have its own services to its users. The standard will set the rules for connecting these networks together and instilling demarcation points between the operators and these large users.

Each facility will manage its own network and provide services to people who are on their premises. The facility will get a high speed link from an operator and have its own services to its users. The standard will set the rules for connecting these networks together and instilling demarcation points between the operators and these large users.

5G to provide speeds up to 3Gbps – worldwide implementation within 5 years. Encrypting the WIFI unlicensed band – WIFI security, encryption techniques, duplicate encryption of SIM cards. Cross billing between operators either GSM, WIFI,…etc.

Each server joining the 6G network will grant some disk space and processing power to the network. This processing power will be used for authentication and authorization of users as well as for performing the machine learning. It is easy to envision that within a short time frame, this would be the largest processing machine on the planet.

VoIP

VoIP would be native to the standard with a standard format for the transport of voice messages. The system can even decide which VoIP service works best in certain environments and automatically choose this service. Native dialer 6G, to choose the best operator or service provider at a certain location in terms of 2 conditions; best received signal, and cheapest service price/cost, network of club or resort versus normal GSM available networks.

VOIP standardization

Protecting history of conversations – WhatsApp versus Facebook Messenger for instance.
Encryption using SIM cards – authentication of users.
Registering calls information, who started the call, GSM, or VOIP?
Standard GSM, equivalent, update location accurately,….etc.

Return of Virtual Terminals

An integral part of 6G would be to allow virtual terminals (inexpensive peripheral devices that have sufficient input output devices to give the user the experience he desires) to connect to servers both locally and globally.

New technologies for such connections would be introduced.

Analogy on the old technology of the dumb terminal connected to the server via coaxial cable, we will go the same old direction.

Cheap tabs to be connected to the servers on the cloud using cloud mobile computing technology and other technologies.

Accessing the new (dumb terminal) smart devices will be done via biometrics, such as face recognition, figure prints, then the user will access his/her own profile to perform calls and so on.

Saving the battery for longer times, preserving the temperature of devices as all computing processing will be done on the cloud servers,…etc.

Routing for phones to be directed to the apps. List of apps on smart device, and online servers. Targeted market segment- poor, and youth.

Data on servers to be collected and analyzed for marketing intelligence applications targeted advertizing.

Routing for phone:

  • 1.master app
  • 2.controls android and all other apps
  • 3.mirror app on server.

Simulation on the phone server real case and the phone laptop demo project to test and ensure connectivity synchronization between phone and laptop/server.

More sophisticated cases such as interactive gaming apps.

Advertising Based Services

Integral to 6G would to allow advertising and to introduce loyalty programs that reward users for shopping.

Location marketing and targeted advertising, techniques, applications.

Advertising instead of ring tones.

Hooks for Specialized Services

he standard would have defined mechanisms to introduce specialized services such as; healthcare online services, remote health monitoring, distant education, news services,…etc.

Artificial intelligence in education to be part of the 6G, cooperation with Khan Academy and producing Arabic version of its content as a start, deep learning, machine learning technologies ,… etc.

Intelligent transportations, based on self driving cars, smart traffic control, wireless charging for self driving electric cars,…etc.

Online smart healthcare services,…etc.

Advanced call services using 3D holographic calls and virtual images.

IOT Services

The Internet of Things (IoT) is a promising topic of technical, societal and economic significance. The IoT has huge potential for developing new intelligent applications in nearly every domain, such as personal, social, societal, medical, environmental and logistics aspects. The number of application domains has been also increasing due to its ability to perform contextual sensing. It allows, for instance, to collect information of environment, natural phenomena, medical parameters and user habits and then can offer tailored services based on information received. Such phenomenon should enhance the quality of everyday life, and should have a reflective impact on the society and economy irrespective of the application domain. Globally, various applications domains can be categorized in three major areas: smart city domain, industrial domain, and health and well-being domain. In fact, each domain is partially or completely overlapped but is not isolated from the others since most of the applications are common and share the same resources.

Power consumption problems of OFDM, for modern applications in IOT for throughput purposes…etc, replacement of OFDM,

There are a number of drawbacks of OFDM:

Frequency-synchronous operation puts stringent limits on the frequency offset and phase noise characteristics of transmitter and receiver oscillators.

Time-synchronous operation forces devices to perform synchronization with the network up to the limits imposed by the cyclic prefix (CP). Specific techniques such as coordinated multipoint (CoMP) also require the network to be globally time synchronized.

OFDM spectrum mask presents poor out-of-band (OOB) radiation behavior caused by sinc-like subcarriers, which motivate the introduction of large guard bands for the protection of spectrally adjacent systems.

The presence of a CP for absorption of the maximum expected time dispersion of the channel introduces a loss in spectral efficiency, which can be especially relevant when the symbol length is very short.

Currently, researchers worldwide are expending significant efforts on seeking new waveforms for 5G that are robust against relaxed time and frequency synchronicity and that improve their spectral characteristics for all applications The multicarrier waveforms based on filtering operations are good candidate waveforms to overcome OOB emission problems and improve spectral efficiency.

Filter Bank‐based Multicarrier (FBMC).

Generalized Frequency Division Multiplexing (GFDM).

Universal Filtered Multicarrier (UFMC).

Artificial Intelligence AI

The network should be utilizing artificial intelligence primarily to the benefit of the user.

The network should learn about the user (their interests, their schedule and so on) and provide a unique experience for each user based on his preferences.

AI/deep learning/machine learning.

Internet companion new patent.

Google serves itself and its advertisers, we will be serving the customers

ITS

The standard should incorporate intelligent transportation systems standards as well as connect them smoothly to the network.

Online Payments

Creating a virtual integrated online mobile payment platform using QR Codes for mobile networks subscribers where the different mobile wallets and online payment tools can communicate and perform secured transactions via accessing clients’ credit cards or bank accounts.

Nevertheless to mention that one of the 6G standard’s missions is to enable online merchants to transact with 100% of the population and accept safe payments via the prepaid instruments and point of sales of the most trusted brands in the world.

The 6G envisions a world where online payments are affordable, safe and available to everyone, including the billions of people who are currently excluded from e-commerce because they do not use credit cards or bank accounts.

Introducing the 6G Digital Currency, within the 6G Standards, to be the official digital currency of the network of networks.

Action Plan

We should execute all actions such that at Barcelona GSM world congress 2022 we have a complete marketing kit for the 6G, press releases, working demos, NDAs to be signed with certain publishers and professional journalists in advance to be ready before the conference date,…etc.

  • 1.Introductions and meetings with the mentioned above professors.
  • 2.Classification of the project’s ideas into separate modules.
  • 3.Forming working groups and teams either PhD/Masters/ Graduates/undergraduate students, and/or independent staff members in various universities, or private companies to 4.work on different modules of the 6G project.
  • 4.The 6G charter document.
  • 5..Establishing the 6G forum.
  • 6.Establishing working groups for each technological topic.
  • 7. Setting deadline for each task.