Public Transport Capacity Analysis Procedures for Developing Cities

Autor:	Reilly, Jack, Levinson, Herbert
Jazyk:	angličtina
Rok vydání:	2011
Předmět:	RIGHT OF WAY PASSENGER VOLUME URBAN RAIL PASSENGERS PER HOUR PER DIRECTION TRAM KILOMETERS PER HOUR VEHICLE DESIGN BUFFER CORRIDOR COMMUTER RAIL CONGESTION COMMUTER BUS INTELLIGENT TRANSPORTATION SYSTEM TRANSPORT PLANNING TRIPS SPEEDS BOTTLENECKS HEAVY RAIL ROUTES BUNCHING RIGHT TURN ON RED BUS SYSTEM PUBLIC TRANSPORT CAPACITY JUNCTIONS BUS DESIGN HIGHWAY SYSTEM TRANSPORT SECTOR PEAK PERIOD PASSENGER VEHICLE VEHICLE CHARACTERISTICS RAIL SERVICES BUS FREQUENCY BICYCLISTS RAILROAD VEHICLE CAPACITY URBAN RAIL SYSTEMS FARES TRAFFIC CONTROL DEVICES RAIL CROSSWALK RAIL VEHICLE PEAK DIRECTION OF TRAVEL SERVICE RELIABILITY RIDERS VEHICLE FLOW URBAN TRANSPORTATION IDENTITY PEDESTRIAN CONFLICTS RAPID TRANSIT BUS SYSTEMS PEDESTRIAN MOVEMENTS AUTOMOBILE PEAK HOUR PITCH TRAVEL TIMES THROUGH TRAFFIC BUS ROUTE PASSENGER CAPACITY BUS MOVEMENTS DECELERATION TRANSPORTATION OPERATIONS RUSH HOUR DESTINATION TRANSIT OPERATING COSTS TRAFFIC VOLUMES VEHICLE SIZE STREET TRAFFIC PASSENGER SERVICE INTELLIGENT TRANSPORTATION PEDESTRIAN TRANSIT SYSTEMS RAIL RAPID TRANSIT BUS OPERATIONS GRADE SAFETY TRANSIT PLANNERS PEAK-HOUR VEHICLES PER HOUR PASSENGER DEMAND PUBLIC TRANSPORT TRANSIT VEHICLES FARE STRUCTURE BOARDING TIME FREE TRANSFER TRANSIT SYSTEM TRAVEL DEMAND RAIL TRANSIT SYSTEMS BUS TRANSPORTATION FREEWAY LANES TRANSIT AGENCY BUS BOARDING RIGHT TURN TRANSIT CAPACITY BUS TRANSIT LOADING PEDESTRIAN CROSSING TRANSIT SERVICE VEHICLE MOVEMENTS CURB LANES TRUCKS EXCLUSIVE RIGHT OF WAY FREEWAYS TRANSPORTATION POPULATION DENSITY TRANSIT PASSENGER BUS STATION TRANSIT OPERATIONS RIGHT-OF-WAY TRANSIT SERVICES RAIL CARS PASSENGERS RAIL TRANSIT SMART CARDS DRIVERS MIXED TRAFFIC BUS FLOOR RIGHT TURNING VEHICLES FREEWAY EQUATIONS TAXIS RAPID TRANSIT SYSTEMS VEHICLE ORIGIN RIGHTS OF WAY CAR PEDESTRIAN BEHAVIOR TRAFFIC LAW ENFORCEMENT LIGHT RAIL SYSTEM TRANSPORTATION RESEARCH SIMULATION HIGHWAY CAPACITY BUS STOPS WALKING ESCALATORS CENTER LIGHT RAIL TRAFFIC CONTROL RAIL SYSTEMS TRAFFIC OPERATIONS TRANSIT CORRIDORS BUS MOVEMENT BUSES PASSENGER MOVEMENTS BUS SERVICES VEHICLE SPEED TRANSIT STOPS INTERSECTIONS FARE COLLECTION PEDESTRIAN MOVEMENT FRAMEWORK TRAFFIC MIX PUBLIC TRANSPORT PLANNING RAIL OPERATIONS MOBILITY PEDESTRIANS PASSENGER FLOWS VEHICLE FLOWS TRANSIT TERMINALS WAITING TIME LANES BUS TRAVEL TRAFFIC VOLUME TRANSIT TRANSIT VEHICLE RIGHT TURNS DOMAIN PEAK PERIODS PEAK DIRECTION ROUTE BUS LANES VEHICLE LOADS ARTERIAL STREET TRAVEL TIME TRAFFIC SIGNAL TRANSIT PASSENGERS RAIL CAPACITY PEAK DEMANDS BUSWAYS TRAFFIC LAW HIGHWAY TRANSPORT RESEARCH BUS STATIONS VEHICLE PLATOONING FLOOR AREA PEAK RIDERSHIP TRAVEL SPEEDS VEHICLES PASSENGERS PER HOUR STREET INTERSECTIONS MOTORCYCLE HEADWAY BUS LINE ACCELERATION TRAFFIC BUS LANE CROWDED TRAINS MOTORISTS RAIL LINE BUS FARE COLLECTION SYSTEMS HIGH TRANSIT RIDERSHIP VEHICLE MANUFACTURERS BUSES PER HOUR INTERSECTION RED TRAFFIC SIGNALS URBAN TRANSPORT BUS SERVICE BUS PASS TRANSIT OPERATORS URBAN BUS RAIL STATION TRACK CAPACITY TRANSPORTATION SYSTEM PASSENGER TRIP BUS STOP URBAN RAIL TRANSIT PASSENGER VOLUMES PARKING PEDESTRIAN VOLUMES URBAN RAIL TRANSIT SYSTEMS PASSENGERS PER VEHICLE SPEED LIMIT
Popis:	The introduction of urban rail transit and high performance/quality/capacity bus transit systems throughout the world has dramatically improved the mobility of residents of cities in which they operate. The objectives of this work are: to provide a technical resource for transit planners and designers in developing cities in their public transport capacity and performance analysis work irrespective of mode. This report recommends methods of achieving practical transit capacity during normally encountered operating conditions. Where capacity is influenced by a measure of dispersion of some characteristic such as stop dwell time or vehicle headway, this is also noted. The purpose of measuring capacity is not just to provide a measure of system capability to transport passengers but also to provide some insight into the effect of service and physical design on customer service quality. When the demand for a service exceeds its schedule design capacity, service quality deteriorates either due to overcrowding on vehicles or at station platforms or diminished ability of customers to board the next arriving transport vehicle since it is already fully loaded, increased dwell times and hence decrease revenue speeds. The importance of service quality in transit capacity analysis cannot be overstated. Transit operators should be mindful that the urban transportation marketplace is more competitive. While it might be technically possible to design a service using a loading standard of 7 or 8 passengers per square meter, a number of customers will find that level intolerable and will seek alternate means of travel including walking (in the case of short distance trips), riding with someone else, riding taxis or purchasing a motorcycle or car. Accordingly, such loading standards should be thought of as interim measures until higher capacity at lower crowding can be achieved.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=od______2456::7b4a1db02c20be493f3f2773f563dbfa https://hdl.handle.net/10986/26722 Zobrazit plný text záznamu