Railway - railway (English spelling)

Japanese: 鉄道 - てつどう（英語表記）railway 英語

A land transportation system that operates motorized vehicles on tracks laid on dedicated land to transport people and goods quickly and safely. In the narrow sense, it refers to tracks on which rails are laid. Trams that are laid on general roads, rather than on dedicated land, are legally distinguished as tracks. Railways are also called "tetsuro" in Chinese, but some use guide tracks made of concrete other than steel. Vehicles that are supported and operated by steel cables are also considered a type of railway.

[Shoji Matsuzawa]

Railway Features

(1) Speed and safety. As trains run on a fixed track made of laid rails, they can be operated at high speeds and various safety equipment can be installed. As is clear from the example of the Shinkansen, they achieve both speed and safety, which are contradictory elements.

(2) Accurate and reliable. Airplanes and ships are greatly affected by weather conditions, so it is difficult to ensure accurate departure and arrival times, and flights may be canceled. Similarly, automobiles, which are less affected by weather conditions like trains, are affected by traffic congestion caused by traffic volume and accidents, even on dedicated roads, and accurate operation is even more difficult on general roads.

(3) Ability to transport large quantities of goods over long distances. Ships are the most capable of transporting large quantities of goods at once, but the largest form of land transportation is the railroad, which can connect many cars and operate frequently. As long as the tracks are connected, transportation over thousands of kilometers is possible, as with continental railroads.

(4) Low exhaust gas pollution and energy consumption. Electric trains, as well as diesel engines, run smoothly on smooth rails with steel wheels, so fuel consumption is low, and naturally, pollution from exhaust gas is low compared to the volume of freight. Electric trains are also energy efficient.

(5) It is effective in the development of the areas along the railway line. Raw materials, supplies, and products can be transported accurately, in large quantities, and at low cost, which promotes industry and contributes to the development of residential areas and cultural exchange.

(6) Effectiveness in national defense. The railways of a military-equipped country can be converted into military transport in time of war.

[Shoji Matsuzawa]

Railway classification

Railways are classified into several categories based on technical, economic and legal criteria.

[Shoji Matsuzawa]

Technical classification

From a technical standpoint, they can be classified based on the structure of the track and vehicles, the track surface, the gauge, and the power source of the vehicles.

[1] Structure of tracks and vehicles There are ordinary railways and special railways. (1) Ordinary railways are general railways that operate self-propelled vehicles on two rails. (2) Special railways include geared railways (rack rail railways, such as the Abt system and the Stolp system) which are ordinary railways equipped with special equipment, as well as single-rail railways (monorails), guide rail railways (including new transit systems), steel funicular railways (cable cars), cableways (ropeways), trackless trains (trolley buses), and magnetic levitation railways (linear motor cars, maglev trains, hovertrains), which have a completely different structure.

[2] Surface of track (1) Railroads that are laid on the ground include ordinary railroads that are laid on dedicated land, and streetcars that are laid on roads. (2) Elevated railroads lay rails on an elevated structure to avoid level crossings with busy roads and other railroads. (3) Underground railroads are laid in tunnels beneath cities.

[3] Track gauge (1) Standard gauge railways are 1,435 millimeter gauge railways, which are used by 70-75% of the world, including Japan's Shinkansen, some private railways, Europe, and America. (2) Wide gauge railways are wider than standard gauge, such as the 1,672 millimeter gauge railways in Spain and India, and the 1,525 millimeter gauge railways in the former Soviet Union. (3) Narrow gauge railways include the 1,067 millimeter gauge railways of Japan's former national railways, many private railways, New Zealand, South Africa, and other countries, and the 1,000 millimeter gauge railways of private railways in Thailand, Myanmar, and Switzerland. Note that Japan's Shinkansen is standard gauge, so it is incorrect to call it wide gauge.

[4] Power source (1) Steam railways mostly use coal-fired steam engines, but some also use oil. (2) Internal combustion engine railways are mainly diesel locomotives and diesel railcars, but there are also gasoline-engine cars. (3) Electric railways are electric locomotives and electric trains that run on electricity supplied from ground facilities. (4) In addition, horse-drawn or human-powered horse-drawn trams and human-cart trams were used in Japan from the late 19th century to the early 20th century (from the mid-Meiji period to the Taisho period).

[Shoji Matsuzawa]

Economic Classification

[1] Management structure In the early stages, many of the world's railways were joint-stock companies, but as national railway networks were formed, many of them became state-owned or nationalized. The British railways were nationalized by law in 1947, and were operated as public corporations from 1963 until they were divided and privatized in 1994. Germany's railways were nationalized in 1920 with the establishment of the Deutsche Nationalbahn. With the division of East and West Germany in 1951 after World War II, West Germany became a state-owned and nationalized entity as the Deutsche Bundesbahn, and East Germany became the East German State Railway. After the reunification of East and West Germany in 1990, the two national railways were merged into the Federal Railway Property Agency in 1994, and were later divided into three organizations based on their operations. In 1999, DB Netz AG, DB Reise & Touristik AG, DB Regio AG, and Railion Deutschland AG were established under Deutsche Bahn Aktiengesellschaft (DBAG). France's railways have been on the path to nationalization since the establishment of a public-private joint-stock company in 1938, and since 1983 they have been operated as fully government-funded entities. In January 1997, SNCF spun off Réseau Ferré de France (RFF), which built and maintained railway tracks, and SNCF itself became an entity dedicated to rail transport. In 2002, the authority and financial responsibility for regional transport was transferred to local authorities (regions). This is called "regionalization." Although the railroads in the United States were under government control for a period during World War I, they were basically privately operated. However, the demand for passenger and freight transport by rail did not grow as much as that for automobiles and airplanes, and Amtrak (short for American track, the abbreviation for National Railroad Passenger Corporation), a railroad operated and managed by the government to transport passengers between cities, was established in 1971, and Conrail (short for Consolidated Rail Corporation), a freight railroad operated under the assistance and supervision of the federal government, was established in 1976. After that, deregulation policies were promoted in the 1980s and 1990s, and railroad companies were consolidated and merged, and Conrail disappeared in 1999 after being split up and acquired by Norfolk Southern Railway and CSX Railway. Since its establishment, Amtrak has been forced to operate at a loss, and since 1997, reforms have been underway to correct its structural flaws.

Japan's railways, excluding certain local railways that were intended for local transport, were nationalized in 1906 (Meiji 39), and after the Second World War, a new public corporation (Japan National Railways) was established in 1949 (Showa 24). Amid debate over the reform of the national railways, the company was divided and privatized in April 1987, and became JR. The new JR companies are Hokkaido Railway Company (JR Hokkaido), East Japan Railway Company (JR East Japan), Central Japan Railway Company (JR Central), West Japan Railway Company (JR West Japan), Shikoku Railway Company (JR Shikoku), Kyushu Railway Company (JR Kyushu), and Japan Freight Railway Company (JR Freight). JR Freight does not own most of its own tracks, so it rents tracks from other passenger railway companies to transport freight on a nationwide network.

Japan's railway system is characterized by the large role played by private railways (minami-tetsu), which are corporations. Private railways are responsible for a large proportion of passenger transportation, and play a particularly large role in metropolitan areas.

As of fiscal year 2009, private railways accounted for 10.9% of domestic passenger transport, while railways, including JR, accounted for 28.7%. Public land transport, including commercial buses and taxis, accounted for 34.6%. In contrast, private cars accounted for 59.6%. There is a need to promote the use of public transport in light of environmental protection and energy efficiency. In fiscal year 2010, the number of passengers transported by the 16 major private railway companies was 3.908 billion non-commuter passengers and 5.52 billion regular passengers, for a total of 9.43 billion passengers. Due to the economic downturn that followed the collapse of the bubble economy, passenger numbers had been declining since peaking in 1991, but had been on an upward trend for four consecutive years since 2005. However, the economic downturn that began in the fall of 2008, combined with the influenza epidemic in 2009, which led to a decrease in non-essential railway use to avoid crowds, reductions in highway tolls, and the Great East Japan Earthquake that occurred in March 2011, have led to a decline in passenger numbers.

[Yoshinao Amemiya and Masamichi Hori]

[2] Operational Areas Railways are divided into national railways, regional railways, and local railways according to the area in which they operate. (1) National railways are trunk railways with nationwide coverage, providing long-distance transport between major cities. An example is the Japanese National Railways before it was divided and privatized. (2) Regional railways are on the same scale as the various JR companies that divide Japan into several blocks, and operate over a wider area than the regional railways listed below, providing direct service between major cities. (3) Local railways, like private and public railways, are primarily used for localized short-distance transport within a limited area, and include subways, suburban trains, and streetcars in metropolitan areas.

[3] Purpose of construction Railways are classified into: (1) ordinary railways, (2) railways for general passenger transportation, such as urban express railways, (3) mountain railways, (4) mining railways, and (5) railways for specific passenger and freight transportation, (6) colonial railways, (7) coastal railways, and (8) military railways.

[4] Objects of transportation: (1) General railways. These handle both passengers and freight. This was the case for the former Japanese National Railways before privatization. (2) Passenger railways. These include the passenger railways of the various JR companies after privatization and most private railways. (3) Freight railways. These include JR freight railways, forest railways, mine railways, and most coastal railways.

[Shoji Matsuzawa and Masamichi Hori]

Legal classification

Before the division and privatization of JNR in 1987 (Showa 62), the main entities were JNR under the Japan National Railways Act of 1949, local railways under the Local Railways Act of 1919 (Taisho 8), and track companies under the Track Act of 1921. JNR was a national railway owned by the state, with a nationwide trunk railway network, and managed and operated railways in metropolitan and regional urban areas, as well as regional transportation lines that formed branch lines to the trunk lines. Regional railways were publicly owned by local governments and privately owned by private individuals (called private railways or private railways), and were built and operated for the purpose of transportation in a region. Tracks are so-called streetcars, which are generally laid on roads. In 1984 (Showa 59), before the division and privatization of JNR, the total operating kilometers were 21,091 kilometers for JNR, 5,378 kilometers for regional railways, and 410 kilometers for track.

Funicular railways are governed by the Local Railways Act. Trackless trains (trolleybuses) use overhead wires that run above the roads, so they are treated similarly to tracks. Cableways (ropeways and lifts) are governed by the Cableway Regulations of the Ministry of Land, Infrastructure, Transport and Tourism, while railways built by local governments and companies for specific purposes such as mines, forests, factories, etc. are governed by the Private Railway Regulations (Cabinet Ordinance, 1919).

With the division and privatization of JNR, the Japanese National Railways Act and the Local Railways Act were abolished and the new Railway Business Act was enacted in April 1987. In response to the separation of freight railway operations from passenger railway operations following the JNR reform, the Railway Business Act recognizes the separation of railway management and ownership, positioning each as an independent railway business, and, compared to the Local Railways Act, eases regulations and expands the scope of discretion for business operators.

The legal framework for the division and privatization of JNR was regulated by eight JNR reform-related laws, the most fundamental of which was the Japan National Railways Reform Law. The six JR passenger companies and JR Freight companies had their purpose of establishment and scope of business regulated by the Passenger Railway Company and Japan Freight Railway Company Law (Law No. 88 of 1986), commonly known as the JR Company Law.

Looking at the changes in the number of operators other than JR and the amount of operating kilometers between immediately after the JNR reforms (1988) and 1998 (Heisei 10), the number of major private railway companies increased from 14 to 15, and the amount of operating kilometers increased slightly from 2,830 kilometers to 2,878 kilometers. The number of second-tier private railway companies decreased from 7 to 6, and the amount of operating kilometers decreased from 212 kilometers to 187 kilometers. The number of subway companies remained at 10, but due to the opening of new lines, the amount of operating kilometers increased from 491 kilometers to 604 kilometers. Local railways (regional transportation) increased from 2,824 kilometers to 3,455 kilometers.

As of fiscal year 2009, there were 16 major private railway operators, five second-tier private railway operators, 11 subway operators, and 112 small and medium-sized private railway operators. The total operating kilometers of the major private railway operators were 2,847.9 kilometers, those of the second-tier private railway operators 117.1 kilometers, those of the subway operators 719.0 kilometers, and those of the local railway operators 3,360.5 kilometers.

JR passenger traffic volume increased 22% from 1987 (JR passenger companies combined) in 1993, and has remained flat since then due to the stagnation of the national economy. JR's share of domestic traffic dropped from 18.5% (1987) to 16.8% (2001), but recovered to 18.1% in 2007. This was due to a slight decrease in automobile traffic. Freight traffic increased 33% in 1991, but dropped to 15% in 2007, and the share of domestic traffic volume has been gradually decreasing from 4.5% in 1987 to 4.0% in 2007. The total number of passengers transported by the six JR passenger companies in 2009 was 8,840,670,000. Of this, 5,472,770,000 were regular passengers, and 3,367,900,000 were non-regular passengers.

[Yoshinao Amemiya and Masamichi Hori]

Railway History

world

The beginning of track dates back to the 16th century, when rail-shaped pieces of wood were attached to planks in the Harz mines of Germany, and coal transport vehicles were run on top of them. Wooden rails were subject to heavy wear, so they were later replaced with iron. Early iron rails were L-shaped, laid with the base on the outside, and wheels rolled on the base. Later, a flange was added to the inside of the wheel's circumference, and the current running method was adopted, where wheels run on the inside of the rail head.

Vehicles were powered by human or horse power, but in the second half of the 18th century, many people researched ways to further improve and utilize the steam engine improved by Watt. In 1804, Richard Trevithick (1771-1833) of England built the first steam locomotive that ran on rails, pulling coal carts instead of horses. However, the rails were weak and the results were not good, so he built another locomotive in 1808, but it was not adopted, and his locomotive, Catch Me Who Can, was operated as a spectacle in the city. In 1812, John Blenkinsop (1783-1831) invented a locomotive with teeth on the outside of the head of the rail, based on the prediction that iron wheels would slip on iron rails, and had teeth that meshed with the rails, but it was recognized that this was unnecessary and did not become popular. This idea was later put to practical use as a cogwheel railway (rack rail railway) for mountain railways.

In 1825, G. Stephenson built the Locomotion and opened the Stockton-Darlington railway. This was the world's first commercial railway using a locomotive. In 1829, prior to the opening of the Liverpool-Manchester line, a competition was held to determine which locomotives would be used, and the Rocket, built by G. Stephenson and his son Robert Stephenson, won, and the line began operation the following year.

Horse-drawn railroads appeared in various parts of America towards the end of the 18th century, with the Baltimore and Ohio Railroad Company founded in 1827 and the South Carolina Railroad opened in 1830 with trains such as the Tom Thumb built by Peter Cooper (1791-1883). This came three months after the opening of the British railway with the Rocket. After that, steam locomotives were put to practical use in America, playing a major role in the development and settlement of industry, with the transcontinental railroad being completed as early as 1869.

In continental Europe, slightly behind Britain and America, France opened its first airport in 1832, Germany and Belgium in 1835, Austria in 1837, Russia in 1838, and Italy in 1839. In Asia, India was the earliest, in 1853, Japan in 1872 (Meiji 5), and China in 1877.

Although railways developed in this way, they were initially seen as dangerous due to the general public's ignorance and lack of understanding, and there was much resentment and opposition from existing shipping and canal operators, so their development was quite difficult. However, gradually the tracks and vehicles were improved, and they came to be recognized as a fast, safe, mass transportation method, and their position as a land transportation method was established. In the 1840s in Britain, many people started railway businesses all over the country, and by the 1850s the total distance had reached 11,000 km, and by the 1890s it had reached 32,000 km. In 1863, the world's first underground railway opened in London.

In the United States, railroads developed more than in the UK, and due to the need to develop the interior of the continent, 14,500 km of railways were opened in the 1850s and 260,000 km in the 1890s, making it the largest railway network in the world, and by the 1920s the network had reached 420,000 km.

In developed countries such as Europe and America, railway networks were almost complete by the end of the 19th century, but in Asia and Africa, except for Japan and China, construction only began in the 20th century.

Around the time of World War I, automobiles developed remarkably and became a new means of transportation, especially in the United States, and the position of railroads, which had been the main means of land transportation, declined. In particular, railroads in the United States began to shrink. After World War II, railroads further declined, and with the rapid development of air transportation, railroads in Europe and the United States found it difficult to manage their operations. As a result, they made efforts to improve safety and service by abolishing unprofitable lines, switching from steam power to more economically efficient electric and internal combustion engines, and establishing facilities to attract passengers by increasing comfort and speed. The Trans Europe Express (TEE), an international express train that began operation in 1957, is a manifestation of this. In addition, the success of Japan's Shinkansen, which opened in 1964 (Showa 39), and France's TGV (Train à Grande Vitesse), which began operation in 1981, attracted worldwide attention.

In socialist countries, former socialist countries, and emerging countries, railways are still used highly, so the decline of railways has not progressed much. In the former Soviet Union, railway construction was promoted as a national policy, and the Second Trans-Siberian Railway (Baikal-Amur Railway, abbreviated as BAM Railway) was constructed, and the entire line was opened in 1984, but development and maintenance were halted due to the collapse of the Soviet Union. However, in 2001, a shortened route tunnel was opened, and the importance of the Second Trans-Siberian Railway has once again come to the forefront due to the abundant underground resources lying dormant in the Siberian region. In China, railway construction is being promoted for industrial development and development of the hinterland, and at the same time, facilities are being expanded and power is being modernized, but steam locomotives are still in use in China, India, Turkey, and other countries as of 2010. In addition, emerging countries and Latin American countries are lagging behind in capital and technology, so they are introducing vehicles and technology from Japan and European railway-advanced countries such as France and Germany. One example is the China High-Speed Railway, which began in 2007.

[Shoji Matsuzawa and Masamichi Hori]

Japan

Until the railway opened

The history of railways in Japan began in the Saga Domain, which built a model steam locomotive (now a railway monument) and conducted a test run in 1855 (Ansei 2) after observing a model railway operated by Russian fleet commander Putyatin on board a ship in 1853 (Kaei 6) at the end of the Edo period. During that time, when the American trade envoy Perry visited Japan again in 1854, a set of steam locomotive models was operated in Yokohama as a gift. Thus, knowledge of railways began with models. In 1860 (Man'en 1), Fukuzawa Yukichi, who was a member of the Shogunate's envoy to the United States carrying the ratification document of the Treaty of Peace and Amity between the United States and Japan, introduced his experience of using the railways in the United States via Panama in his book "Western Affairs" (1866), using the character "kisha" (train). It is said that around this time, the British trader Thomas Blake Glover (1838-1911) conducted a test run of a steam locomotive on the Oura Beach in Nagasaki.

Foreigners living in Japan also applied to build railways between Edo and Yokohama, and between Osaka and Kobe. In 1867 (Keio 3), ALC Portman, a secretary at the American Embassy, obtained a license from the shogunate to build a railway between Edo and Yokohama, but the Meiji government did not approve this, and in 1869 (Meiji 2), the government officially decided to build the Tokyo-Kyoto-Kobe and other railways itself. This plan was actively promoted by Okuma Shigenobu and Ito Hirobumi, with the strong urging of British Minister to Japan Parkes behind the scenes. As a result, Britain gained the upper hand in the battle for railway interests in Japan between Britain and America, and Japan's railways came to be built using foreign engineers and materials employed by British engineer Morrell and other foreigners.

[Shoji Matsuzawa and Masamichi Hori]

Development of railways and nationalization of main lines

Construction began on the Shinbashi-Yokohama section in March 1870, the Shinagawa-Yokohama section was provisionally opened in May 1872, and the Shinbashi-Yokohama (later Shiodome-Sakuragicho) section was officially opened on October 14th of the same year (later Railway Memorial Day, now Railway Day). The Osaka-Kobe section was subsequently opened in 1874, and the Osaka-Kyoto section in 1877. In 1880, the Horonai Railway, run by the Hokkaido Colonization Office, opened between Temiya (Otaru) and Sapporo using American-style railway technology.

Due to financial difficulties of the government, railway construction did not progress as hoped, but construction progressed thanks to the enthusiasm of Inoue Masaru, who worked actively on railway construction as a railway foreman, and in 1880 the Kyoto-Otsu section was opened, the Osakayama Tunnel (now a railway monument) between the two stations was completed by Japanese engineers, and the first Japanese engineer was born in 1879. The railway between Tokyo and Kyoto was originally planned to run via the Nakasendo road, but in 1886 the route was changed to via the Tokaido road, and in 1889 the section between Tokyo (Shinbashi) and Kyoto was completed.

In 1881, the first private railway in Japan, the Japan Railway Company, was founded. With the cooperation of the government, the Ueno-Kumagaya section was opened in 1883, followed by Maebashi, and in 1891, the Ueno-Aomori section was fully opened, making it the central railway company in northeastern Japan (the Japan Railway Company was nationalized in 1906). Between 1885 and 1889, the Hankai Railway, Kobu Railway, Iyo Railway, Sanyo Railway, Kansai Railway, Kyushu Railway, Ryomo Railway, and Mito Railway were opened one after another, and private railways came to account for more than 50% of the operating lines in the country. In light of this situation, the Railway Construction Act was promulgated in 1892, and the government began to guide railway construction policy. From then on, based on this law, the construction of trunk lines was promoted with a focus on the expansion of operating distances for both government-run and privately-run railways, and both transportation capacity and volume increased.

However, due to the increase in national power and military needs after the Sino-Japanese and Russo-Japanese Wars, the unification of all the main railways in the country proceeded rapidly. In 1906 (Meiji 39), the Railway Nationalization Act was promulgated. By the following year, 17 major private railway companies across the country had been acquired and nationalized, with approximately 90% of the national railway network's operating routes, approximately 84% of passenger transport volume, and approximately 90% of freight transport volume.

In 1907, jurisdiction over railways was removed from the Ministry of Communications and the Imperial Railway Agency was established. The following year it became the Railway Bureau, a special accounting agency responsible for managing the national railways as well as overseeing private railways throughout the country.

[Shoji Matsuzawa]

Development of suburban railways

After the nationalization of the major private railways, private railways throughout the country were tasked with serving as local transportation services. However, with the promulgation of the Light Railway Act in 1910, from the end of the Meiji period to the beginning of the Taisho period, private railways were actively constructed all over the country, and electric railways were adopted in cities and in areas connecting cities with their suburbs. As cities developed, the scale of operations expanded.

In light of this situation, the Local Railway Law was promulgated in 1919 (Taisho 8), followed by the Railway Track Law in 1921, which unified regulations for private railways. During this time, the management of JNR and supervision of private railways came to be carried out by the Ministry of Railways, which was established in 1920 to replace the Ministry of Railways.

In 1922, the Railway Construction Act was completely revised, and construction of sub-trunk and branch lines began to improve the national trunk network that had been built up until then, and construction of suburban and intercity connecting railways by private railways also resumed. In parallel with the construction of new lines, JNR electrified the Tokaido Main Line and constructed the Joetsu Line as a detour line to improve its trunk lines. Meanwhile, in terms of rolling stock and operation technology, air brake devices were adopted in 1921, all trains were replaced with automatic couplers in 1925, and signals were automated, improving operation performance and strengthening safety measures. By the Showa era, manufacturing technology for steam locomotives had reached a state of perfection, and large electric locomotives were also being produced domestically.

[Shoji Matsuzawa]

Deteriorating Management and the Wartime System

However, the economic depression that began in the early 1930s caused a decline in transport demand, which worsened the management of each railway, and JNR tried to overcome the crisis by taking measures to improve services and expand operations, such as starting super express trains and opening JNR bus routes. Private railways, which mainly provided short-distance transport, were further affected by the recession due to the influence of automobile transport. Therefore, they dealt with the situation by taking on bus operations, developing housing along railway lines, enhancing related businesses for railway facilities such as opening amusement parks, and modernizing their power sources.

In 1938 (Showa 13), the Land Transportation Business Adjustment Law was enacted, which guided the consolidation of large and small private railways in Tokyo, Osaka, and other major regions for the sound development of the two. Meanwhile, state control of electricity was also implemented, making it difficult for small and medium-sized railways to secure sufficient power, which further promoted the consolidation of private railways.

When the Second World War began, all railways, including the Japanese National Railways, were required to focus solely on military transport, and as the war intensified, more than 20 private railway companies were acquired and nationalized in order to strengthen the railway system. However, as a result, vehicles, facilities, and personnel suffered enormous damage, and in the difficult situation after the defeat, it took a considerable amount of time to restore operations.

[Shoji Matsuzawa and Masamichi Hori]

From reconstruction to rapid growth

In line with the transition to a wartime system, railways became the Ministry of Transport and Communications from 1943 (Showa 18), and from 1945 the Ministry of Transport (now the Ministry of Land, Infrastructure, Transport and Tourism), and from 1949 (Showa 24), the JNR became independent from the Ministry of Transport and became an independent and profitable system, and the Ministry of Transport became a supervisory authority for the JNR and private railways.

Since 1952, the JNR promoted long-term plans to increase its transport capacity, and began implementing various plans, including updating aging facilities, electrification, and modernizing power through dieselization. For private railways, forced integration was gradually lifted, and reorganised and became independent, and modernising was carried out in accordance with the circumstances and scale of each region and company.

になったんです。 English: The first thing you can do is to find the best one to do. As of 2009 (Heisei 21), the Tokaido and Sanyo Shinkansen transported 196.61 million people a year. It transports an average of 538,644 passengers per day at high speed, ensuring high efficiency operation without causing serious train accidents. The Tokaido Shinkansen brought about great economic and social development in the economy and society connecting Tokyo, Nagoya and the Osaka area, and played a role in promoting Japan's rapid economic growth.

However, Japan's automobile industry has been significantly developed since the 1960s, and the expressway network has also been developed. As a result, passengers have switched to private cars and buses, and to cargo door-to-door trucks. Furthermore, with the addition of the introduction of large aircraft domestically due to improvements in facilities at local airports, the railways are at a stage where optimism is unacceptable.

[Matsuzawa Shoji and Hori Masamichi]

The functions and roles of railways

Before the advent of automobiles, railways around the world were the main land transport in a country, but their role has been shrinking year by year due to the progress of motorization and the development of aircraft. In the 1980s, the share of railway transport in the West in the UK, France and former West Germany was 7-11%, the United States was 1%, and freight transport was 12-38%. In 1997, the UK, France and Germany were 6-7%, and the US 1%. For freight transport was 7%, France and Germany were 20-22%, and the US 40%. This share has remained almost unchanged as of 2010. In Western railways, the role of railways in each country's transportation system is greater for freight transport than for passenger transport. The share of Japan's railway transport system also declined with progress in motorization. In 1955 (Showa 30), the share of Japanese railways was 82% for passenger transport and 53% for freight transport, but in 1984, passenger transport and 39% for freight transport. Since then, passenger transport and 5% for freight transport were flat in 1997 (Heisei 9), passenger transport and 5% for freight transport, remained flat at 28% for freight transport, 28% for passenger transport and 4% for freight transport. In Japanese railways, passenger transport and freight transport are characterized by a greater role for passenger transport than freight transport. Incidentally, as of 2005, British railways account for only 7% of the total human kilometer (number of passengers x distance) in the freight transport market. In addition, railways account for only 8% of all tonns of tonns of tonns of freight (total tonns of freight × distance). In the British transportation market, automobile transport is dominant in both passenger and freight market.

In Europe and the United States, the functions expected of railways are (1) medium- and long-distance freight transport, (2) inter-city passenger transport, and (3) commuting within urban areas. Local railways that use less local areas should basically be converted to buses. In addition, the functions and role of railways are evaluated in terms of environment, safety, energy, national defense, etc., and the number of railways is said to be necessary from these perspectives. In Japanese railways, the characteristics of railways include (1) medium-distance inter-city passenger transport, (2) inter-city passenger transport, and (3) major regional city passenger transport, and freight transport is believed to demonstrate their characteristics in the field of mass long-distance transportation.

になったんです。 English: The first thing you can do is to find the best one to do.