Canada is geographically the second largest country in the world, with its population of 30 million scattered throughout a vast northern wilderness. Although the majority of its citizens live within 150 miles of the US/Canada border, many others live in small isolated communities, out of range of the manor Canadian broadcast services. Early on the Canadian government realized the immense contribution that satellite technology could make in uniting its diverse population. In 1969, the Canadian Parliament created the Telesat organization, an all-Canadian company charged with the task of bringing into existence the worlds first domestic telecommunications system using geosynchronous satellites.
Between 1972 and 1975, Canadas Telesat organization make satellite history with the launch of the worlds first domestic telecommunications satellites. ANIK satellites, names after the Canadian Inuit Indian word for little brother, transmitted the first television and broadcast radio programs into previously isolated regions of Canada and Alaska. In 1978, Canada once again made satellite history by launching the worlds first bird capable of operating on 12 as well as 4 GHz frequencies. Experiments conducted through ANIK B demonstrated the practicality of the small dish antenna for direct satellite reception and provided the worlds first first commercial 12-GHz TV service.
In 1982, Telesat deployed ANIK D1, Canadas first 24 transponder satellite. The countrys second 12 GHz satellite, ANIK C3, was also launched from the space shuttle Columbia. In 1983, ANIK became operational; this satellite was temporarily leased to the American0based USCI corporation for Americas first Ku band DBS service.
So what are ANIK C3 satellites? With four primary spot beams and 16 transponders in the 12 GHz band, each of which can carry two video signals, ANIK C series satellites are in a prime position to deliver powerful regional TV signals not only to Canada, but to most of the United States as well. ANIK C3 was used for delivering cable TV services to Canadian cable TV operators; eventually the bird was able to carry some video for the private earth station owner. ANIK C2 was released by USCI to deliver five channels of subscription television programming into small sized dishes in the Northeastern US. USCI moved onto an American GSTAR satellite late 1984, on the bird was up and running. ANIK C2 then reverted to use by Canadian companies.
saw a broader adoption of SIP as a phone standard and for good reason. Whether you are based in Michigan or have offices nationally or internationally, cost continues to be a primary driver for change in any enterprise, and SIP offers businesses large and small an opportunity to achieve significant cost savings in their monthly communications bill. These costs savings are a direct result of lowering long-distance, maintenance, support and administrative costs.
Once an IP telephony system is in place, the costs for adds, moves, and changes may also drop.
What is SIP?
Session Initiation Protocol (SIP) is an IETF (Internet Engineering Task Force) defined signaling protocol, widely used for controlling multimedia communication sessions such as voice and video calls over Internet Protocol (IP). Put slightly differently, a Session Initiation Protocol (SIP) connection is a Voice over Internet Protocol (VoIP) that connects a company’s private branch exchange (PBX) telephone system to the public switched telephone network (PSTN) via the Internet.
Scalability & Cost Benefits
SIP Trunking has the benefit of easily expanding your network and system as your needs change. For example, with an IP PBX installed at your main office, there is no need to incur additional cost of installing an additional PBX when you open a secondary location. There is also no need for additional wiring and other installation costs. All you need to do is add phones and terminals and you are able to make both internal and external phone calls through the PBX located at the main office.
Additional Benefits
In addition to considerable cost savings and scalability, SIP provides other benefits for the business telephone user, including:
— Simultaneous ringing with a smartphone and your desk set phone
— Transfer of calls between a smartphone and a desk phone
— Smartphone Apps (such as the Bria App for iPhone and SIPDroid for the Android) that lets you do VOIP (no per minute charges)
— Find-me functionality
— Audio messages delivered as a WAV file directly to your email
SIP is quickly becoming recognized as the leading standard for voice and video. Hosted VoIP telephony is a solution favored by companies because it uses a broadband connection at high speed for transmitting voice and data over an IP platform, is cost-effective and is very scalable with little effort required. It also possesses ancillary benefits that improve the business process and makes doing business more efficient.
Network and telecommunications services come in many shapes and sizes. There are many that offer the service, but few that truly excel in delivering service and maintenance. Cross Telecom is an industry leader in providing the best in services and Avaya maintenance to clients. One way they have ensured this continued success is through CrossNet Managed Services. CrossNet Managed Services is a comprehensive and flexible suite of managed services, which utilizes Cross Telecoms experience and expertise.
CrossNet Managed Services offers a proactive network and telecommunications system monitoring and management platform, which means you get real-time support of your system; remote system backup for business continuance and disaster recovery, enabling your business to move forward no matter the setback. Systems audit and analysis reporting ensures that your valuable data and assets are effectively reaching your companys goals.
CrossNet Managed Services is one of three pillars that make up CrossNet Services. CrossNet Maintenance and CrossNet Support are the other two pieces. These three components encompass the elements of ensuring stable, secure, and efficient operation of your network and telecommunication systems. Here are some of the features CrossNet Managed Services delivers.
Storage Services: Cross Remote System Backup services provide customers with a secure encrypted offsite disaster recovery copy of Avaya PBX translations. Cross servers are hosted in a SAS70 Type II certified data center, and data is encrypted both in transit and while at rest. Backup jobs are scheduled for weekly transfers using secure file transfer protocol. Backup files are encrypted by the PBX using an implementation of Open PGP.
Reporting Services: Cross System Audit and Analysis is a service providing system inventory, configuration information, and analysis for Avaya PBX systems. The audit process collects data from the cabinets, carriers, and media gateways down to the individual stations. Once Cross has prepared the analysis from collected data, an Overall Impact Rating is applied to each PBX surveyed. This allows you to quickly identify PBX systems with the most critical upgrade needs and to prepare migration plans before major support and liability issues arise.
Monitoring Services: Visualize, monitor, and pro-actively manage your environment. CrossTrak Monitoring and Management is a secure distributed network management service that will monitor your entire voice and data network infrastructure. CrossTrak can provide you with proactive availability monitoring, statistical measurements, and real-time alerts and notification.
Cross is an Avaya Premier, National Platinum Business Partner and Avaya Business Partner of the Year award winner. By providing a complete portfolio of Voice, Data, IP Telephony, Wireless, CrossNet Maintenance and Support, Professional Services and Cross University, Cross has defined itself as a complete, end-to-end integrator of converged technologies nationwide. Having one of the largest and most experienced technical teams within the industry, Cross delivers business transforming communications solutions that will create a distinct competitive advantage for our customers. For award winning customer service on Avaya telecommunication products, contact Cross Telecom to meet your needs.
Text messaging services include various uses of messages either to promote any business or to serve as a value adding service to any business. Messaging is being used by many government or private organizations as an integral part of their businesses. Some time text messaging services are often referred as pc sms services because messages can be sent or receive by using a computer with Internet connection as well. Infect all the text messaging services provider use pc sms for many reasons.
Any messaging campaign may need to send thousands of messages and it is practically impossible to send all the messages by using a mobile. Mobile phones are not made to send thousands of messages at a time and infect they are good for person messaging only. Using pc sms not only saves a lot of time but is quite economic also. There are basically two ways to send online messages or pc sms. First is to use any web sms service providers, which are quite popular among the folks and other is to use sms gateway of any telecommunication service provider. Using any online web service for message sending is not appropriate at commercial level as there is normally a presented limit to send sms, It is often time consuming to send messages, In some services mass sms is not allowed and all above this method can not be used to receive messages means it is only a one way communication. Using sms gateway is widely used way to send pc sms in bulk as it is cheaper, convenient and fast way to send messages. Lets take a little deep look into pc sms by using sms gateway.
Sms gateway is a online platform where you are allowed to send messages by using the network of any third party and to start any bulk sms campaign you must be familiar with the following terms sms api, sms software and sms gateway. In this article I will try to explain the working and various types of bulk messages and their respective use also. We all are very aware of the fact there is a difference in every telecommunication service providers technology and therefore messages we send in any bulk sms campaign must be compatible with all the technologies.
Sms api is an abbreviation for sms application programming interface which is used to make messages in accordance with the every service providers technology and ensures the successful delivery of every message pushed into sms gateway. Sms api is very important as successful delivery of every message increases the profitability of the overall project. The biggest advantage of using any sms api is that any point of time it can be trace down that how many of messages have been delivered and how many are still in the pipe line.
Now you may wonder that how it Is possible to send thousands of messages within a very short span of time? Well this is done by using sms software. Sms software is custom made software made to send pc sms. This software not only sends messages with very fast speed but also provides many other features which are very helpful in customer targeting. There are different data mining options in any sms software to prevent the delivery of the messages to any undesired mobile numbers.
ETKjide Area Networks. Telecommunications networks covering a large geographic area are called remote networks, long-distance networks, or, more popularly, wide area networks (WANs).
Networks that cover a large city or metropolitan area (metropolitan area networks) can also be included in this category. Such large networks have become a necessity for carrying out the day-to-day activities of many business and government organizations and their end users.
Thus, WANs are used by manufacturing firms, banks, retailers, distributors, transportation companies, and government agencies to transmit and receive information among their employees, customers, suppliers, and other organizations across cities, regions, countries, or the world.
Local Area Networks. Local area networks (LANs) connect computers and other information processing devices within a limited physical area, such as an office, a building, manufacturing plant, or other work site.
LANs have become commonplace in many organizations for providing telecommunications network capabilities that link end users in offices, departments, and other work groups.
LANs use a variety of telecommunications media, such as ordinary telephone wiring, coaxial cable, or even wireless radio systems to interconnect microcomputer workstations and computer peripherals. To communicate over the network, each PC must have a circuit board installed called a network interface card.
Most LANs use a powerful microcomputer having a large hard disk capacity, called a file server or network server that contains a network operating system program that controls telecommunications and the use of network resources.
LANs allow end users in a work group to communicate electronically; share hardware, software, and data resources; and pool their efforts when working on group projects.
For example, a project team of end users whose microcomputer workstations are interconnected by a LAN can send each other electronic mail messages and share the use of laser printers and hard magnetic disk units, copies of electronic spreadsheets or word processing documents, and project databases.
LANs have thus become a more popular alternative for end user and work group computing than the use of terminals connected to larger computers.
Internetworks. Most local area networks are eventually connected to other LANs or wide area networks. That’s because end users need to communicate with the workstations of colleagues on other LAN’s, or to access the computing resources and databases at other company locations or at other organizations.
This frequently takes the form of client-server networks, where end user microcomputer workstations (clients are connected to LAN servers and interconnected to other LANs and their servers, or to WANs and their mainframe super servers).
Local area networks rely on internetwork processors, such as bridges, routers, hubs, or gateways, to make internetworking connections to other LANs and wide area networks.
The goal of such internetwork architectures is to create a seamless “network of networks” within each organization and between organizations that have business relationships.
such networks are designed to be open systems, whose connectivity provides easy access and interoperability among its interconnected workstations, computers, computer-based devices databases, and other networks.
The Internet. The Internet is the largest “network of networks” today. The Internet (the Net) is a rapidly growing global web of thousands of business, educational, and research networks connecting millions of computers and their users in over 100 countries to each other.
The Internet evolved from a research and development network (ARPANET) established in 1969 by the U. S. Defense Department to enable corporate, academic, and government researchers to communicate with E-mail and share data and computing resources.
The Net doesn’t have a central computer system or telecommunications center. Instead each message sent has an address code so any computer in the network can forward it to its destination.
The Internet doesn’t have a headquarters or governing body. The Internet society in Reston, Virginia, is a volunteer group of individual and corporate members who promote use of the Internet and the development of new communications standards or protocols.
These common standards are the key to the free flow of messages among the widely different computers and networks in the system.
The most popular Internet application is E-mail. Internet E-mail is fast, faster than many public networks. Messages usually arrive in seconds or a few minutes, anywhere in the world. And Internet E-mail messages can take the form of data, text, fax, and video files.
The Internet also supports bulletin board systems formed by thousands of special interest groups. Anyone can post messages on thousands of topics for interested users to read. Other popular applications include accessing files and databases from libraries and thousands of organizations, logging on to other computers in the network, and holding real-time conversations with other Internet users.