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1.1 INTRODUCTIONWhat Internet conne
1.1 INTRODUCTION
What Internet connection should you use? Cable modem or DSL (formally called Digital
Subscriber Line)? Cable modems are supposedly six times faster than DSL, providing
data speeds of 10 mbps to DSL’s 1–5 Mbps (million bits per second). One cable company
used a tortoise to represent DSL in advertisements. So which is faster? We’ll give you
a hint. Which won the race in the fable, the tortoise or the hare? By the time you
finish this book, you’ll understand which is faster and why, as well as why choosing the
right company as your Internet service provider (ISP) is probably more important than
choosing the right technology.
Over the past decade or so, it has become clear that the world has changed forever.
We continue to forge our way through the Information Age—the second Industrial Revolution, according to John Chambers, CEO (chief executive officer) of Cisco Systems,
Inc., one of the world’s leading networking technology companies. The first Industrial
Revolution revolutionized the way people worked by introducing machines and new
organizational forms. New companies and industries emerged and old ones died off.
The second Industrial Revolution is revolutionizing the way people work through
networking and data communications. The value of a high-speed data communication
network is that it brings people together in a way never before possible. In the 1800s, it
took several weeks for a message to reach North America by ship from England. By the
1900s, it could be transmitted within the hour. Today, it can be transmitted in seconds.
Collapsing the information lag to Internet speeds means that people can communicate
and access information anywhere in the world regardless of their physical location. In
fact, today’s problem is that we cannot handle the quantities of information we receive.
Data communications and networking is a truly global area of study, both because
the technology enables global communication and because new technologies and applications often emerge from a variety of countries and spread rapidly around the world. The
World Wide Web, for example, was born in a Swiss research lab, was nurtured through
its first years primarily by European universities, and exploded into mainstream popular
culture because of a development at an American research lab.
One of the problems in studying a global phenomenon lies in explaining the different political and regulatory issues that have evolved and currently exist in different parts
of the world. Rather than attempt to explain the different paths taken by different countries, we have chosen simplicity instead. Historically, the majority of readers of previous
editions of this book have come from North America. Therefore, although we retain a
global focus on technology and its business implications, we focus exclusively on North
America in describing the political and regulatory issues surrounding communications
and networking. We do, however, take care to discuss technological or business issues
where fundamental differences exist between North America and the rest of the world
(e.g., ISDN [integrated services digital network]) (see Chapter 8).
One of the challenges in studying data communications and networking is that
there are many perspectives that can be used. We begin by examining the fundamental
concepts of data communications and networking. These concepts explain how data is
moved from one computer to another over a network, and represent the fundamental
“theory” of how networks operate. The second perspective is from the viewpoint of the
technologies in use today—how these theories are put into practice in specific products.
From this perspective, we examine how these different technologies work, and when
to use which type of technology. The third perspective examines the management of
networking technologies, including security, network design, and managing the network
on a day-to-day and long-term basis.
In our experience, many people would rather skip over the fundamental concepts,
and jump immediately into the network technologies. After all, an understanding of
today’s technologies is perhaps the most practical aspect of this book. However, network
technologies change, and an understanding of the fundamental concepts enables you to
better understand new technologies, even though you have not studied them directly.
1.1 INTRODUCTION 5
From this perspective, we examine how these different technologies work, and when
to use which type of technology. The third perspective examines the management of
networking technologies, including security, network design, and managing the network
on a day-to-day and long-term basis.
In our experience, many people would rather skip over the fundamental concepts,
and jump immediately into the network technologies. After all, an understanding of
today’s technologies is perhaps the most practical aspect of this book. However, network
technologies change, and an understanding of the fundamental concepts enables you to
better understand new technologies, even though you have not studied them directly.
1.1.1 A Brief History of Communications in North America
Today we take data communications for granted, but it was pioneers like Samuel Morse,
Alexander Graham Bell, and Thomas Edison who developed the basic electrical and
electronic systems that ultimately evolved into voice and data communication networks.
In 1837, Samuel Morse exhibited a working telegraph system; today we might consider it the first electronic data communication system. In 1841, a Scot named Alexander
Bain used electromagnets to synchronize school clocks. Two years later, he patented a
printing telegraph—the predecessor of today’s fax machines. In 1874, Alexander Graham Bell developed the concept for the telephone at his father’s home in Brantford,
Ontario, Canada, but it would take him and his assistant, Tom Watson, another two years
of work in Boston to develop the first telephone capable of transmitting understandable
conversation in 1876. Later that year, Bell made the first long-distance call (about 10
miles) from Paris, Ontario, to his father in Brantford.
MANAGEMENT 1.1 CAREER OPPORTUNITIES
FOCUS
It’s a great time to be in information technology even after the technology bust. The
technology-fueled new economy has dramatically
increased the demand for skilled information technology (IT) professionals. The U.S. Bureau of
Labor estimates that the number of IT-related
jobs will increase 15%–20% by 2018. IT employers have responded: Salaries have risen rapidly.
Annual starting salaries for undergraduates at
Indiana University range from $50,000 to $65,000.
Although all areas of IT have shown rapid growth,
the fastest salary growth has been for those with
skills in Internet development, networking, and
telecommunications. People with a few years of
experience in these areas can make $65,000 to
$90,000—not counting bonuses.
The demand for networking expertise is growing for two reasons. First, Internet and communication deregulation has significantly changed
how businesses operate and has spawned thousands of small start-up companies. Second, a host
of new hardware and software innovations have
significantly changed the way networking is done.
These trends and the shortage of qualified network experts have also led to the rise in certification. Most large vendors of network technologies,
such as Microsoft Corporation and Cisco Systems, Inc., provide certification processes (usually
a series of courses and formal exams) so that
individuals can document their knowledge. Certified network professionals often earn $10,000
to $15,000 more than similarly skilled uncertified
professionals—provided they continue to learn
and maintain their certification as new technologies emerge.
SOURCES: Payscale.com, Bureau of Labor Statistics
(2011)
6 CHAPTER 1 INTRODUCTION TO DATA COMMUNICATIONS
When the telephone arrived, it was greeted by both skepticism and adoration, but
within five years, it was clear to all that the world had changed. To meet the demand, Bell
started a company in the United States, and his father started a company in Canada. In
1879, the first private manual telephone switchboard (private branch exchange, or PBX)
was installed. By 1880, the first pay telephone was in use. The telephone became a way
of life, because anyone could call from public telephones. The certificate of incorporation
for the American Telephone and Telegraph Company (AT&T) was registered in 1885.
By 1889, AT&T had a recognized logo in the shape of the Liberty Bell with the words
Long-Distance Telephone written on it.
In 1892, the Canadian government began regulating telephone rates. By 1910, the
Interstate Commerce Commission (ICC) had the authority to regulate interstate telephone businesses in the United States. In 1934, this was transferred to the Federal
Communications Commission (FCC).
The first transcontinental telephone service and the first transatlantic voice connections were both established in 1915. The telephone system grew so rapidly that by
the early 1920s, there were serious concerns that even with the introduction of dial telephones (that eliminated the need for operators to make simple calls) there would not
be enough trained operators to work the manual switchboards. Experts predicted that by
1980, every single woman in North America would have to work as a telephone operator
if growth in telephone usage continued at the current rate. (At the time, all telephone
operators were women.)
The first commercial microwave link for telephone transmission was established in
Canada in 1948. In 1951, the first direct long-distance dialing without an operator began.
The first international satellite telephone call was sent over the Telstar I satellite in
1962. By 1965, there was widespread use of commercial international telephone service
via satellite. Fax services were introduced in 1962. Touch-tone telephones were first
marketed i
What Internet connection should you use? Cable modem or DSL (formally called Digital
Subscriber Line)? Cable modems are supposedly six times faster than DSL, providing
data speeds of 10 mbps to DSL’s 1–5 Mbps (million bits per second). One cable company
used a tortoise to represent DSL in advertisements. So which is faster? We’ll give you
a hint. Which won the race in the fable, the tortoise or the hare? By the time you
finish this book, you’ll understand which is faster and why, as well as why choosing the
right company as your Internet service provider (ISP) is probably more important than
choosing the right technology.
Over the past decade or so, it has become clear that the world has changed forever.
We continue to forge our way through the Information Age—the second Industrial Revolution, according to John Chambers, CEO (chief executive officer) of Cisco Systems,
Inc., one of the world’s leading networking technology companies. The first Industrial
Revolution revolutionized the way people worked by introducing machines and new
organizational forms. New companies and industries emerged and old ones died off.
The second Industrial Revolution is revolutionizing the way people work through
networking and data communications. The value of a high-speed data communication
network is that it brings people together in a way never before possible. In the 1800s, it
took several weeks for a message to reach North America by ship from England. By the
1900s, it could be transmitted within the hour. Today, it can be transmitted in seconds.
Collapsing the information lag to Internet speeds means that people can communicate
and access information anywhere in the world regardless of their physical location. In
fact, today’s problem is that we cannot handle the quantities of information we receive.
Data communications and networking is a truly global area of study, both because
the technology enables global communication and because new technologies and applications often emerge from a variety of countries and spread rapidly around the world. The
World Wide Web, for example, was born in a Swiss research lab, was nurtured through
its first years primarily by European universities, and exploded into mainstream popular
culture because of a development at an American research lab.
One of the problems in studying a global phenomenon lies in explaining the different political and regulatory issues that have evolved and currently exist in different parts
of the world. Rather than attempt to explain the different paths taken by different countries, we have chosen simplicity instead. Historically, the majority of readers of previous
editions of this book have come from North America. Therefore, although we retain a
global focus on technology and its business implications, we focus exclusively on North
America in describing the political and regulatory issues surrounding communications
and networking. We do, however, take care to discuss technological or business issues
where fundamental differences exist between North America and the rest of the world
(e.g., ISDN [integrated services digital network]) (see Chapter 8).
One of the challenges in studying data communications and networking is that
there are many perspectives that can be used. We begin by examining the fundamental
concepts of data communications and networking. These concepts explain how data is
moved from one computer to another over a network, and represent the fundamental
“theory” of how networks operate. The second perspective is from the viewpoint of the
technologies in use today—how these theories are put into practice in specific products.
From this perspective, we examine how these different technologies work, and when
to use which type of technology. The third perspective examines the management of
networking technologies, including security, network design, and managing the network
on a day-to-day and long-term basis.
In our experience, many people would rather skip over the fundamental concepts,
and jump immediately into the network technologies. After all, an understanding of
today’s technologies is perhaps the most practical aspect of this book. However, network
technologies change, and an understanding of the fundamental concepts enables you to
better understand new technologies, even though you have not studied them directly.
1.1 INTRODUCTION 5
From this perspective, we examine how these different technologies work, and when
to use which type of technology. The third perspective examines the management of
networking technologies, including security, network design, and managing the network
on a day-to-day and long-term basis.
In our experience, many people would rather skip over the fundamental concepts,
and jump immediately into the network technologies. After all, an understanding of
today’s technologies is perhaps the most practical aspect of this book. However, network
technologies change, and an understanding of the fundamental concepts enables you to
better understand new technologies, even though you have not studied them directly.
1.1.1 A Brief History of Communications in North America
Today we take data communications for granted, but it was pioneers like Samuel Morse,
Alexander Graham Bell, and Thomas Edison who developed the basic electrical and
electronic systems that ultimately evolved into voice and data communication networks.
In 1837, Samuel Morse exhibited a working telegraph system; today we might consider it the first electronic data communication system. In 1841, a Scot named Alexander
Bain used electromagnets to synchronize school clocks. Two years later, he patented a
printing telegraph—the predecessor of today’s fax machines. In 1874, Alexander Graham Bell developed the concept for the telephone at his father’s home in Brantford,
Ontario, Canada, but it would take him and his assistant, Tom Watson, another two years
of work in Boston to develop the first telephone capable of transmitting understandable
conversation in 1876. Later that year, Bell made the first long-distance call (about 10
miles) from Paris, Ontario, to his father in Brantford.
MANAGEMENT 1.1 CAREER OPPORTUNITIES
FOCUS
It’s a great time to be in information technology even after the technology bust. The
technology-fueled new economy has dramatically
increased the demand for skilled information technology (IT) professionals. The U.S. Bureau of
Labor estimates that the number of IT-related
jobs will increase 15%–20% by 2018. IT employers have responded: Salaries have risen rapidly.
Annual starting salaries for undergraduates at
Indiana University range from $50,000 to $65,000.
Although all areas of IT have shown rapid growth,
the fastest salary growth has been for those with
skills in Internet development, networking, and
telecommunications. People with a few years of
experience in these areas can make $65,000 to
$90,000—not counting bonuses.
The demand for networking expertise is growing for two reasons. First, Internet and communication deregulation has significantly changed
how businesses operate and has spawned thousands of small start-up companies. Second, a host
of new hardware and software innovations have
significantly changed the way networking is done.
These trends and the shortage of qualified network experts have also led to the rise in certification. Most large vendors of network technologies,
such as Microsoft Corporation and Cisco Systems, Inc., provide certification processes (usually
a series of courses and formal exams) so that
individuals can document their knowledge. Certified network professionals often earn $10,000
to $15,000 more than similarly skilled uncertified
professionals—provided they continue to learn
and maintain their certification as new technologies emerge.
SOURCES: Payscale.com, Bureau of Labor Statistics
(2011)
6 CHAPTER 1 INTRODUCTION TO DATA COMMUNICATIONS
When the telephone arrived, it was greeted by both skepticism and adoration, but
within five years, it was clear to all that the world had changed. To meet the demand, Bell
started a company in the United States, and his father started a company in Canada. In
1879, the first private manual telephone switchboard (private branch exchange, or PBX)
was installed. By 1880, the first pay telephone was in use. The telephone became a way
of life, because anyone could call from public telephones. The certificate of incorporation
for the American Telephone and Telegraph Company (AT&T) was registered in 1885.
By 1889, AT&T had a recognized logo in the shape of the Liberty Bell with the words
Long-Distance Telephone written on it.
In 1892, the Canadian government began regulating telephone rates. By 1910, the
Interstate Commerce Commission (ICC) had the authority to regulate interstate telephone businesses in the United States. In 1934, this was transferred to the Federal
Communications Commission (FCC).
The first transcontinental telephone service and the first transatlantic voice connections were both established in 1915. The telephone system grew so rapidly that by
the early 1920s, there were serious concerns that even with the introduction of dial telephones (that eliminated the need for operators to make simple calls) there would not
be enough trained operators to work the manual switchboards. Experts predicted that by
1980, every single woman in North America would have to work as a telephone operator
if growth in telephone usage continued at the current rate. (At the time, all telephone
operators were women.)
The first commercial microwave link for telephone transmission was established in
Canada in 1948. In 1951, the first direct long-distance dialing without an operator began.
The first international satellite telephone call was sent over the Telstar I satellite in
1962. By 1965, there was widespread use of commercial international telephone service
via satellite. Fax services were introduced in 1962. Touch-tone telephones were first
marketed i
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1.1 GIỚI THIỆUBạn nên sử dụng những gì kết nối Internet? Modem cáp hoặc DSL (chính thức được gọi là kỹ thuật sốĐường dây thuê bao)? Cáp modem được cho là sáu lần nhanh hơn so với DSL, cung cấpdữ liệu tốc độ 10 mbps đến của DSL 1-5 Mbps (triệu bit trên giây). Công ty cáp mộtsử dụng một con rùa để đại diện cho DSL trong quảng cáo. Vì vậy, đó là nhanh hơn? Chúng tôi sẽ cung cấp cho bạnmột gợi ý. Mà chiến thắng cuộc đua trong fable, con rùa hoặc thỏ? Bởi thời gian bạnkết thúc cuốn sách này, bạn sẽ hiểu đó là nhanh hơn và tại sao, cũng như lý do tại sao việc lựa chọn cácCác công ty phải là nhà cung cấp dịch vụ Internet (ISP) là có lẽ quan trọng hơnlựa chọn công nghệ phù hợp.Trong thập kỷ vừa qua, hay như vậy, nó đã trở nên rõ ràng rằng thế giới đã thay đổi mãi mãi.Chúng tôi tiếp tục để giả mạo đường của chúng tôi thông qua các thời đại thông tin-cuộc cách mạng công nghiệp lần thứ hai, theo John Chambers, CEO (Giám đốc điều hành) của Cisco Systems,Inc, một trong thế giới hàng đầu của công ty công nghệ mạng. Công nghiệp đầu tiênCách mạng cách mạng hóa cách người làm việc bằng cách giới thiệu máy và mớihình thức tổ chức. Công ty mới và ngành công nghiệp nổi lên và những cái cũ mất.Cách mạng công nghiệp lần thứ hai là cách mạng cách mọi người làm việc thông quamạng và dữ liệu truyền thông. Giá trị của một truyền dữ liệu tốc độ caomạng là rằng nó mang lại người với nhau theo cách không bao giờ trước khi có thể. Trong những năm 1800, nómất một vài tuần cho một tin nhắn đến Bắc Mỹ bằng tàu thủy từ Anh. Bởi cácnhững năm 1900, nó có thể được truyền trong một giờ. Hôm nay, nó có thể được truyền trong vài giây.Sụp đổ tụt hậu thông tin Internet tốc độ có nghĩa là mọi người có thể giao tiếpvà truy cập thông tin bất cứ nơi nào trong thế giới bất kể vị trí vật lý của họ. Ởthực tế, các vấn đề của ngày hôm nay là rằng chúng tôi không thể xử lý số lượng thông tin chúng tôi nhận được.Dữ liệu truyền thông và mạng là một khu vực thật sự toàn cầu của nghiên cứu, cả hai đều đến vìcông nghệ cho phép giao tiếp toàn cầu và vì công nghệ mới và các ứng dụng thường nổi lên từ một số quốc gia và lây lan nhanh chóng trên toàn thế giới. CácWorld Wide Web, ví dụ, được sinh ra trong một phòng thí nghiệm nghiên cứu Thụy sĩ, được nuôi dưỡng quanhững năm đầu tiên chủ yếu bởi các trường đại học châu Âu, và phát nổ vào dòng phổ biếnvăn hóa bởi vì một sự phát triển tại một phòng thí nghiệm nghiên cứu Mỹ.Một trong những vấn đề trong việc học tập một hiện tượng toàn cầu nằm trong việc giải thích các vấn đề chính trị và quy định khác nhau mà đã phát triển và hiện đang tồn tại trong bộ phận khác nhaucủa thế giới. Chứ không phải là cố gắng để giải thích những con đường khác nhau thực hiện bởi các quốc gia khác nhau, chúng tôi đã chọn đơn giản để thay thế. Trong lịch sử, đa số các độc giả củaPhiên bản của cuốn sách này đã đến từ Bắc Mỹ. Vì vậy, mặc dù chúng tôi giữ lại mộttoàn cầu tập trung vào công nghệ và ý nghĩa kinh doanh của nó, chúng tôi tập trung hoàn toàn vào BắcMỹ trong mô tả các vấn đề chính trị và pháp lý xung quanh truyền thôngvà mạng. Chúng tôi, Tuy nhiên, hãy cẩn thận để thảo luận về vấn đề công nghệ hoặc cho doanh nghiệpnơi khác biệt cơ bản tồn tại giữa Bắc Mỹ và phần còn lại của thế giới(ví dụ như, ISDN [mạng dịch vụ tích hợp kỹ thuật số]) (xem chương 8).Đó là một trong những thách thức trong nghiên cứu dữ liệu truyền thông và mạngcó rất nhiều quan điểm có thể được sử dụng. Chúng tôi bắt đầu bằng cách kiểm tra cơ bảnkhái niệm dữ liệu truyền thông và mạng. Những khái niệm này giải thích làm thế nào dữ liệu làdi chuyển từ một máy tính khác trên mạng, và đại diện cho cơ bản"lý thuyết" của cách mạng hoạt động. Quan điểm thứ hai là từ quan điểm của cáccông nghệ sử dụng vào ngày hôm nay-làm thế nào những lý thuyết được đưa vào thực hiện trong sản phẩm cụ thể.Từ quan điểm này, chúng ta xem xét làm thế nào các công nghệ khác nhau làm việc, và khisử dụng loại công nghệ. Quan điểm thứ ba xem xét việc quản lýmạng công nghệ, bao gồm bảo mật, thiết kế mạng, và quản lý mạngtrên cơ sở hàng ngày và lâu dài.Theo kinh nghiệm của chúng tôi, nhiều người sẽ thay vì bỏ qua các khái niệm cơ bản,và nhảy ngay lập tức vào các công nghệ mạng. Sau khi tất cả, một sự hiểu biết củacông nghệ ngày nay có lẽ các khía cạnh thiết thực nhất của cuốn sách này. Tuy nhiên, mạngcông nghệ thay đổi, và sự hiểu biết về các khái niệm cơ bản cho phép bạnhiểu rõ hơn về công nghệ mới, ngay cả khi bạn không có nghiên cứu chúng trực tiếp.1.1 GIỚI THIỆU 5Từ quan điểm này, chúng ta xem xét làm thế nào các công nghệ khác nhau làm việc, và khisử dụng loại công nghệ. Quan điểm thứ ba xem xét việc quản lýmạng công nghệ, bao gồm bảo mật, thiết kế mạng, và quản lý mạngtrên cơ sở hàng ngày và lâu dài.Theo kinh nghiệm của chúng tôi, nhiều người sẽ thay vì bỏ qua các khái niệm cơ bản,và nhảy ngay lập tức vào các công nghệ mạng. Sau khi tất cả, một sự hiểu biết củacông nghệ ngày nay có lẽ các khía cạnh thiết thực nhất của cuốn sách này. Tuy nhiên, mạngcông nghệ thay đổi, và sự hiểu biết về các khái niệm cơ bản cho phép bạnhiểu rõ hơn về công nghệ mới, ngay cả khi bạn không có nghiên cứu chúng trực tiếp.1.1.1 một lịch sử tóm tắt của truyền thông ở Bắc MỹHôm nay chúng tôi có truyền dữ liệu cấp, nhưng nó là người tiên phong như Samuel Morse,Alexander Graham Bell, và Thomas Edison đã phát triển cơ bản điện vàHệ thống điện tử cuối cùng phát triển thành mạng lưới giao tiếp bằng giọng nói và dữ liệu.Năm 1837, Samuel Morse trưng bày một hệ thống điện báo làm việc; hôm nay chúng tôi có thể xem xét nó hệ thống thông tin dữ liệu điện tử đầu tiên. Năm 1841, một Scot tên là AlexanderBain sử dụng nam châm điện để đồng bộ hóa đồng hồ trường. Hai năm sau, ông cấp bằng sáng chế mộtin điện báo-tiền thân của ngày hôm nay của máy fax. Năm 1874, Alexander Graham Bell phát triển khái niệm cho các điện thoại ở nhà của cha ông ở Brantford,Ontario, Canada, but it would take him and his assistant, Tom Watson, another two yearsof work in Boston to develop the first telephone capable of transmitting understandableconversation in 1876. Later that year, Bell made the first long-distance call (about 10miles) from Paris, Ontario, to his father in Brantford.MANAGEMENT 1.1 CAREER OPPORTUNITIESFOCUSIt’s a great time to be in information technology even after the technology bust. Thetechnology-fueled new economy has dramaticallyincreased the demand for skilled information technology (IT) professionals. The U.S. Bureau ofLabor estimates that the number of IT-relatedjobs will increase 15%–20% by 2018. IT employers have responded: Salaries have risen rapidly.Annual starting salaries for undergraduates atIndiana University range from $50,000 to $65,000.Although all areas of IT have shown rapid growth,the fastest salary growth has been for those withskills in Internet development, networking, andtelecommunications. People with a few years ofexperience in these areas can make $65,000 to$90,000—not counting bonuses.The demand for networking expertise is growing for two reasons. First, Internet and communication deregulation has significantly changedhow businesses operate and has spawned thousands of small start-up companies. Second, a hostof new hardware and software innovations havesignificantly changed the way networking is done.These trends and the shortage of qualified network experts have also led to the rise in certification. Most large vendors of network technologies,such as Microsoft Corporation and Cisco Systems, Inc., provide certification processes (usuallya series of courses and formal exams) so thatindividuals can document their knowledge. Certified network professionals often earn $10,000to $15,000 more than similarly skilled uncertifiedprofessionals—provided they continue to learnand maintain their certification as new technologies emerge.SOURCES: Payscale.com, Bureau of Labor Statistics(2011)6 CHAPTER 1 INTRODUCTION TO DATA COMMUNICATIONSWhen the telephone arrived, it was greeted by both skepticism and adoration, butwithin five years, it was clear to all that the world had changed. To meet the demand, Bellstarted a company in the United States, and his father started a company in Canada. In1879, the first private manual telephone switchboard (private branch exchange, or PBX)was installed. By 1880, the first pay telephone was in use. The telephone became a wayof life, because anyone could call from public telephones. The certificate of incorporationfor the American Telephone and Telegraph Company (AT&T) was registered in 1885.By 1889, AT&T had a recognized logo in the shape of the Liberty Bell with the wordsLong-Distance Telephone written on it.In 1892, the Canadian government began regulating telephone rates. By 1910, theInterstate Commerce Commission (ICC) had the authority to regulate interstate telephone businesses in the United States. In 1934, this was transferred to the FederalCommunications Commission (FCC).The first transcontinental telephone service and the first transatlantic voice connections were both established in 1915. The telephone system grew so rapidly that bythe early 1920s, there were serious concerns that even with the introduction of dial telephones (that eliminated the need for operators to make simple calls) there would notbe enough trained operators to work the manual switchboards. Experts predicted that by1980, every single woman in North America would have to work as a telephone operatorif growth in telephone usage continued at the current rate. (At the time, all telephoneoperators were women.)The first commercial microwave link for telephone transmission was established inCanada in 1948. In 1951, the first direct long-distance dialing without an operator began.The first international satellite telephone call was sent over the Telstar I satellite in1962. By 1965, there was widespread use of commercial international telephone servicevia satellite. Fax services were introduced in 1962. Touch-tone telephones were firstmarketed i
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