O-Explanatory Notes on
Main Statistical Indicators |
Length of Railways in Operation refers
to the total length of the trunk line under passenger and freight
transportation (including both
full operation and temporary operation). The calculation is based on the
actual length of the first line even if this line has a full or partial
double track or more tracks, excluding double tracks, station sidings, tracks under the
charge of stations, branch lines, special-purpose lines and the non-payable connecting
lines. The length of railways in operation is an important indicator to show
the development of the infrastructure for the railway transport, and also the
essential data to calculate volume of passenger freight transport, traffic
density and utilization efficiency of the locomotives and carriages. |
Extenuation Length of
Trunk Lines refers to the sum of
the first, the second, the
third lines and other constructed length of the trunk railways, excluding the
extenuation length of the station lines, lines under the jurisdiction of
depots, sidings and lines for special purpose. It provides important
information for the calculation of the needs for rails, sleepers,
sand and stone for the construction of railways. |
Length of Electrified
Railways refers to the
length of the section of railways in operation in which the power supply
lines and other equipment are installed for the running of electrified
locomotives. The proportion of the length of electrified railways to the
total length of railways in operation is an important indicator to show the
modernization of railways. |
Automatic-blocking and
Semi-automatic-blocking Length of Railways Blocking is a spacing technique by
which a section of the railway only allows one train to pass at a time, in
order to ensure the traffic safety. Automatic (semi-automatic) blocking
length of railways refers to railways installed with equipment to perform
automatic or manual blocking of trains, the proportion of automatic/semi-automatic blocking
length to the total length of railways in operation is an important indicator
to show the modernization of railways. |
Length of Highways refers to the length of highways which
are built in conformity with the grades specified by the highway engineering
standard formulated by the Ministry of Communications, and have been formally checked and accepted by
the departments of highways and put into use. The length of highways includes
that of the suburb highways at large and medium-sized cities, highways
passing through streets at small cities and towns, and also the length of
bridges and ferries. It does not include the length of streets in big and
medium-sized cities and highways built for the production purpose at
factories, mines, forest
areas and agricultural areas. If two or more highways go the same section of
the way, the length of the section is only calculated for once and no
duplication is allowed. The length of highways is an important indicator to
show the development of the highway construction and to provide essential
information to calculate the transport network density. |
Length of Navigable Inland
Waterways an indicator reflecting
the size and development of inland water network, it refers to the length of
the natural rivers, lakes, reservoirs,
canals, and ditches open to navigation during a given period, which enables
the transport by ships and rafts. It includes the channels open to navigation
for over an accumulative 3 months in a year, yet this does not include the
river courses which are only used to float odd logs and bamboo rafts. |
Length of Civil Aviation Routes refers to the length
of all routes for regular civil aviation flights. There are usually two ways
to calculate the distance between airports connected by the route length: One
is to put the length of all air routes together, called duplicated
calculation of the length of the routes; the other is not to allow the
duplication in calculation when two or more routes passing the same section
of aviation routes. The latter is usually used, as it can precisely show the
size of the civil aviation network and indicate the extent of civil aviation
serving the national economy and the people. |
Length of
Oil(Gas)Pipelines
used as an indicator to show the development, scale and level of the
pipeline transportation, it refers to the actual transport distance of oil(or
gas)products, and is in general calculated in the length of single pipe line.
If the length of the double pipelines and alternate pipeline are included, it
is called the extension length of the oil (gas) pipelines, which indicates
the actual length of the pipelines built, excluding double pipelines. |
Freight(Passenger)Traffic
refers to the volume of
freight(passenger)transported with various means. Freight transport is
calculated in tons and passenger traffic is calculated in the number of
persons. Despite the type of freight and travelling
distance, the freight transport is calculated in the actual weight of the
goods: and despite the travelling distance and ticket price, the passenger
traffic is calculated by the principle that one person can be counted only
once in one travel. The passenger who travel with a
half price ticket or a child ticket is also calculated as one person. The
freight (passenger) traffic provides a quantitative measure to show how the
transport industry serves the national economy and people, and is also an
important indicator for planning the transport industry and for studying the
development scale and speed of the transport industry. |
Freight (Passenger)Traffic Density refers to the freight (passenger)
traffic volume carried by a particular means of transportation during a given
period through one kilometer of a specific section of transportation route. The
formula is as follows: |
Freight (Passenger) Traffic Density=[Freight Ton-kilometers (Passenger-kilometers)] ÷(Length of Route in
Operation) |
Freight (passenger)
traffic density reflects the degree of business of freight (passenger)
traffic on transportation routes, and therefore provides important
information for balancing transport capability, planning construction and
upgrading of transport routes and studying the distribution of transport
network. |
Freight Ton-kilometers
(Passenger-kilometers)
refer to the sum of the products of the volume of transported cargo
(passengers) multiplying by the transport distance, usually using ton-kilometer
and passenger-kilometer as units for measurement. Normally,
the shortest distance between the departure station and the destination
station (i. e. , the
payable distance) is the basis to calculate the freight ton-kilometers. This
is an important indicator to show the total results of the transport industry,
to prepare and examine the transport plan and to measure the efficiency, the
labour productivity and the unit cost of transport. The formula is as
follows: |
Freight Ton-kilometers
(Passenger-kilometers) =∑{Freight
(Passenger) Traffic x Distance of Transportation} |
Measuring unit:
ton-kilometer (person-kilometer) |
Static Load of Freight Cars refers to the average
cargo weight as loaded by each freight car under the static condition at the
departure station. It is used to show the utilization extent of the loading
capacity of the freight cars. The formula is: |
Static Load(ton) of Freight Car=(Tonnage of Goods Dispatched) ÷(Number of
Freight Cars Loaded) |
The static load of freight
cars is determined by the nature and type of goods loaded,
the type of vehicles, and the technique of loading. The difference between
the average marked load and the static load of freight cars reflects the
utilization of loading capacity of freight cars. For its calculation the following
formula is applied: |
Utilization Rate of
Capacity of Freight Cars(%)=[(Average Static Load)×100%]÷(Average Marked
Load) |
Average Daily Haul of
Freight Locomotives refers to the average total ton-kilometers
accomplished by each freight transport locomotive over day and night during a
given period of time. It includes both the weight of the goods carried and
the dead weight of the train itself. It is a comprehensive indicator
reflecting the locomotive efficiency in terms of both time and the pulling
force. |
Average Daily Haul of
Freight Transport Locomotive (ton-kilometer)=[(Total Ton (Kilometers of Freight)] ÷ (Daily Number of Freight
Transport Locomotive) |
Volume of Freight Handled
in Major Coastal Ports refers to the volume of cargo passing in and out
the harbor area of the major coastal ports and having been loaded and
unloaded. The volume includes that of the postal matters, registered luggage
and fuels, materials and fresh water as supplies of the ships. The volume of
freight handled may be classified by direction of flow as freight
for import and freight for export, or by nature of cargo as freight for
domestic trade and freight for foreign trade. As an important indicator, the
volume of freight handled by type of cargo and by main flow direction reflects
the production
capacity of ports. |
Business Volume of Post
and Telecommunications refers to the total amount of post and
telecommunications services, expressed in value terms, provided by the post
and telecommunications departments for the society. Post and
telecommunication services can be classified as letters, parcels,
remittance, issue of
newspapers and magazines, fast mail service, express mail service, savings deposits, stamps for collection,
public and individual telegraph service, facsimiles,
long-distance telephone service, leasing of
telephone lines, urban paging service, mobile telephone service, data
transfer and transmission, etc. The accounting approach is to multiply the service products
of all types with their average unit price (constant price) to get sum of
business value, plus income from other services such as leasing of telephone
lines and equipment, maintenance of telephone switchboards and lines on
behalf of customers. This indicator reflects the overall results of post and
telecommunications service during a given period, and is important to study
the composition of business service and the development of post and
telecommunications service. |
The formula is as follows: |
Business Volume of Post and Telecommunications |
=∑(Transaction of
Post and Telecommunication Service × Constant
Price) + Income from Leasing, Maintenance and other Services |
Subscribers of Paging Services refer to subscribers
who carry small-size pagers and receive audio signals, digital signals or
character signals sent out by city telephone through wireless paging center
within assigned area. Each pager is counted as a subscriber. |
Mobile Telephone Subscribers refer to the persons
who own mobile telephone number connected with the mobile telephone
communication network and have registered in mobile communication enterprises.
The number of subscribers is calculated only when the subscribers who have
gone through all the register formalities and entered into the mobile
telephone network. One mobile telephone is treated as a subscriber. |
Telephone Subscribers refer to subscribers
that are connected to the public line telephone network provided with
telephone services. Before 1997, telephone subscribers were classified as
city subscribers and village subscribers. City subscribers referred to those
connected to city telephone networks in county towns and cities, while
village subscribers referred to those connected to village telephone stations
at and below counties. Since 1997, the classification of telephone
subscribers was modified on the basis of physical location of the subscribers
as “urban telephone subscribers” and “rural telephone subscribers”, which is
different from the previous classification of categorizing “local telephones”
and “rural telephones”, while the definition of total subscribers and total
number of telephones remain unchanged. |
Household telephone subscribers refer to telephone
sets installed in the dwelling units of residents, include 3 types of payment
for the service: private payment, public payment and free service. |
Private-paid telephone subscribers refer to subscribers of households who pay for the installation and service of telephones. |