There are several ways, methods and systems to communicate.

One of the wide spread communication facilities is the Internet transmission network, which enables the user to connect through the network from most places on the globe by using fiber, wire line, cellular, radio and satellite infrastructure channels or a combination of them.

The known existing network communication methods use switches and/or gateways to establish a connection.

BACKGROUND OF THE INVENTION The Internet is a network comprised of digital packet transmissions means connected by routers. Each connected mean, which usually is a router, has a unique IP address to be used by other routers to locate it. An Internet user can be connected to an Internet-Services-Provider (ISP) or to an Internet Point-Of-Presence (POP). The user is held in the ISP domain and the ISP enables the user to communicate in the Internet by

allocating him a temporary IP address. The user can use the known IP addresses to connect to any server or web site or to any other user that, at the same time, is connected to the network in another server domain.

The Internet user connects, via any available infrastructure, to the ISP, which provides Internet services and enables the user to surf the Internet. As to E-mails, the ISP usually allocates a mailbox in its domain for the user to save the incoming E-mail and the user can draw the mail from its ISP at his initiation.

SUMMARY OF THE INVENTION The present invention provides End-to-End communication ability.

Subscribers would be able to make direct service connection to each other, avoiding most of the carriers'exchanges. A user would be able to send Emails directly without mediation of servers and would be able to conduct a phone-call, hold fax, data and video sessions, and emit sensing and controlling signals in the same way. The present invention provides personal/SOHO services such as web hosting, E-commerce, video and other Internet services that emanate from having a server at the end-user's premises, and also provides remote control of electronic appliances, their metering and sensing.

The same architecture, and the technical capabilities of the invention and services enabled by it, are applicable and can be used by and for a larger enterprise organization.

The present invention is a method and a system to establish End-to-End communication, wherein each end-subscriber user can be anywhere on the globe, using the Internet network. The method and the system, according to the present invention, are for use by any communication device to enable communication between subscribers of the said system or between a subscriber of the system and a non-subscriber as well.

The method, according to the present invention, is a method to establish End-to-End communication comprising the following steps: (a) Installing a local unit (IPCenter) at the subscriber's premises wherein the IPCenter is connected to the Internet, via any independent infrastructure (when any IPCenter can be connected to the Internet network by dialup or dial-in to the closest entry point of the Internet network (POP) and any IPCenter can be connected to the Internet network via broad band and/or narrow band connection or fiber connected to the Back-Bone or any other communication means that connects the last mile into the Internet), and the IPCenter has an assigned IP address while connecting; (b) Each subscriber receives a global-unique name and/or number, using a global naming-numeric-scheme; (c) Connecting the communication devices and electronic appliances and the networks of the end-user premises to the IPCenter via any end-user premises infrastructure;

(d) Connecting to a main Master-Server in the Internet, which has a registered Internet Universal-Resource-Location (URL) wherein all the IPCenter units are sub zones of the said Master-Server; (e) Organizing the subscribers'data in the Master-Server to find an IP address according to a subscriber name, using the global naming-scheme wherein each subscriber has a unique Domain-Name; (f) When a device in the subscriber's premises is activated, the IPCenter identifies the device and determines the kind of communication that ought to be made to the required addressee (either dialed phone number, E-mail address or other) and has available the name or number of the addressee; (g) The IPCenter connects to the Master-Server to find out if the addressee is a subscriber or not, and the Master-Server converts the name or the number to an IP address in the case of a subscriber; (h) If the IPCenter recognizes that a connection has already been made in the past with the required addressee, it takes the destination IP-address from a local memory history table; (i) If the addressee is a system subscriber, the originating IPCenter connects directly, using the Internet routers and the given IP address, to the addressee IPCenter; The The addressee IPCenter acts as a local device and establish the communication through the electronic devices connected to it; (k) The IPCenter includes an electronic circuitry that converts analog signals to digital ones-and digital to analog-where and when needed;

(1) If the addressee is not a system subscriber, the IPCenter establishes the communication using the existing facilities, e. g.

PSTN facilities, IP Telephony gateway or other Internet servers; (m) The IPCenter reports to the Master-Server the needed information for billing, Quality-of-Service (QoS), connectivity monitoring, status of connected devices and other defined information; (n) The method and system also provides the usual connectivity to available Internet services.

The present invention includes also a system, which uses the said method to provide communication services over the Internet. The said system is comprised of at least one Master-Server that is connected to the Internet and holds the updated information of all of the system subscribers (e. g. Domain-Name, IP address, traffic, status, etc.), an IPCenter installed in each subscriber premises wherein each IPCenter is connected to the Internet and the communication devices of the end-user premises are connected to the IPCenter and wherein the IPCenter is comprised of : * Microprocessor, Digital-Signal-Processor (DSP) and software to perform and manage of all the IPCenter activities; * A first input/output (I/O) unit, to connect to the Internet; A second input/output (I/O) unit, to communicate with the communication devices of the end-user premises; * An analog to digital module to transform analog signals, which come from an analog communication device, to digital information;

* A digital to analog module to transform digital information, which comes from the Internet and routes it to an analog communication device, into analog signals; * Authentication, Security and Encryption circuitry; * Environment, RFI (Radio Frequency Interference) and electric protection circuitry; * Vital function backup; * Suitable input/output (I/O) connectors (e. g. Audio, Video, Fiber-optics, Cellular, RF, LAN, Data); * Suitable physical interfaces (e. g. Infra-Red, Smart/Magnetic/Laser card readers); * Display and/or indicators.

* IR receiver for loading software and operational functions.

The IPCenter can also include a data connectivity unit to operate (via USB, serial port or IrDA) through a PC, printer, scanner, palm pilot or video camera and can also include a GPS capability to be used for system registration and applications.

The IPCenter can also include a voice security system and/or a data security system and/or a video security system, to enable use of credit card readers, smart card readers and transmit-secure information via the network from one end to other end. Any kind of information may be secure and encrypted via the transmission and reception.

The system includes the ability to Push-Information from various sources into the IPCenter units, whether in a multi-cast form or a selective method. Any IPCenter can serve as a head-end to push information.

DRAWING DESCRIPTION The present invention is described in detail in figures 1 to 4. These figures serve a descriptive purpose only and are not intended to limit the scope of the invention in any manner.

Figure 1 describes the method and the system, according to the present invention.

Figure 2 describes a subscriber's end-user premises.

Figure 3 describes a block diagram of the Master-Server.

Figure 4 describes a block diagram of an IPCenter unit.

Figure 1 describes the method and the system, according to the present invention. There are number of end-user premises (1, 1 a) subscribed in the system. In each end-user premises an IPCenter unit (2,2a) is installed and the communication devices (3) and the electronic appliances (4) (e. g. coffee maker) in the said end-user premises are connected to the local IPCenter. Each IPCenter is connected to the Internet. The Internet network (5) is made up of a number of data lines connected one to each other by routers (Sa) and the connection to the Internet (5b) can be either through ISP or POP connection.

Non-subscribed Internet user (5c) is connected to the Internet by one of the ISP's routers. The IPCenter unit is connected to the Internet through one of the ISP servers and each IPCenter has a name or number as a domain-name. One of the main components of the system is the Master-Server (6). The Master-Server holds the updated information of all of the system subscribers (including Domain-Name, IP address, traffic, status, etc.).

A transaction between two subscribers (phone calls, Email or other) will be effected directly between two IPCenter units. The originating IPCenter (e. g. 2) will first translate the required destination to an IP address by querying (7) with the Master-Server (6), and will then make the connection directly (8) with the required subscriber's IPCenter (in the case of the example 2a).

Figure 2 describes a subscriber's end-user premises. In the subscriber's end-user premises an IPCenter unit (2) is installed. The communication devices are connected to the IPCenter unit, e. g. FAX machine (3), telephone (3a), cable TV (3b) or LAN (3c) wherein a number of PCs (3d) are connected together with the IPCenter unit. Any end-user premises'electronic appliances (4) can be connected to the IPCenter for monitoring, metering and remote control, e. g. air-conditioner or coffee machine.

The IPCenter unit is connected to the Internet (5b) either by a one of the ISPs in which case it uses the ISP router or by POP connection to a router, to communicate the Internet.

Figure 3 describes a block diagram of the Master-Server. The Master-Server is comprised of four main parts. The first part is the application layer and data-bases (9), which includes Internet providers' database, push technologies database, user database and billing and events database. The second part is the security layer (10), comprising a firewall, and encryption and authentication means. The third part is the

communication layer (11) and the last part is the naming/numeric server (12).

Figure 4 describes a block diagram of an IPCenter unit. The IPCenter is comprised of a microprocessor CPU (13), Digital-Signal-Processor (DSP) (14) and software to perform and manage all the IPCenter activities, memory (15), security system (16), vital backup unit (17), a converter unit (18) to convert analog to digital and digital to analog. The IPCenter has number of interfaces and connection means. The wan interface (19) is to connect it to the Internet using cable, satellite, cellular, wireless, power lines or dial up modem and the LAN interface (20) is to connect the unit to a local area network. The IPCenter unit has a number of interfaces to the communication devices (21), e. g. audio, telephone, video or data and a number of physical interfaces (22) for card readers, IrDA, appliances I/O, display and others.