A bicycle-sharing system, public bicycle system, or bike-share scheme, is a service in which bicycles are made available for shared use to individuals on a short term basis for a price or free. Many bike share systems allow people to borrow a bike from a "dock" and return it at another dock belong to the same system. Docks are special bike racks that lock the bike, and only release it by computer control. The user enters their payment information, and the computer unlocks a bike. When the user returns the bike, they place it in the dock, which locks it into the dock. For many systems, smartphone mapping apps show nearby stations with available bikes and open docks.
Video Bicycle-sharing system
History
The first bike sharing projects were either initiated by local community organisations, as charitable projects intended for the disadvantaged, or to promote bicycles as a non-polluting form of transport, or they were business enterprises to rent out bicycles. The first documented bike-share project began in Europe in 1965, the group Provo painted fifty bicycles white and placed them unlocked in Amsterdam for everyone to use freely.
The idea spread and made it's way into Ernest Callenbach's novel Ecotopia (1975). In the utopian novel of a society which is founded on the idea of being ecologically friendly and does not use any fossil feuls, Callenbach describes a bicycle sharing system which is available to inhabitants and is an integrated part of the public transportation system.
In 1995 a 800 strong free bicycle sharing system which used coins to unlock the bicycles in the style of shopping carts was introduced in Copenhagen. It was initiated by Morten Sadolin and Ole Wessung. The idea was developed by both Copenhageners after they were victims of bicycle theft one night in 1989.
The systems in use have evolved the introduction of new technologies. Of the world's 15 biggest public bike share programs 13 of them are in China.
Maps Bicycle-sharing system
Categorisation
Bike-sharing systems have developed and evolved with society changes and technological improvements. The systems can be grouped into five categories or generations. Many bicycle programmes paint their bicycles in a strong solid colour, such as yellow or white. Painting the bicycles helps to advertise the programme, as well as deter theft (a painted-over bicycle frame is normally less desirable to a buyer). However, theft rates in many bike-sharing programmes remain high, as most shared-use bicycles have value only as basic transport, and may be resold to unsuspecting buyers after being cleaned and repainted. In response, some large-scale bike sharing programmes have designed their own bike using specialised frame designs and other parts to prevent disassembly and resale of stolen parts.
Staffed stations
- Short-term checkout
Also known as bicycle rental, bike hire or zero generation. In this system a bicycle can be rented or borrowed from a location and returned to that location. These bicycle renting systems are often catered to people on day trips or towards tourists visiting cities, countrysides, leisure areas, mountain bike parks or other recreational areas. This system is also used by cycling schools where potential cyclists are not required to buy a bicycle to be able learn how to drive. The locations or stations are not automated but are run by employees or volunteers. Regional programs have also been implemented where numerous renting locations are set up at railway stations and at local businesses (usually restaurants, museums and hotels) creating a network of locations where bicycles can be borrowed from and returned (e.g. ZweiRad FreiRad with at times 50 locations ). In this kind of network for example a railway station master can allocate a bicycle to a user that then returns it at a different location, for example a hotel. These systems include bicycles that are paid for with a fee and systems were the vehicle is borrowed without a fee. Usually the user will be registered or a deposit will be left by the renting facility. The EnCicla Bike Share System in Medellín was on it's inception in 2011 a bicycle sharing system operating from 6 staffed locations. The EnCicla network has grown since then to 32 automatic and 19 staffed stations making it a hybrid between a zero generation and third generation system.
- Long-term checkout
Sometimes known as bike library systems, these bicycles may be lent free of charge, for a refundable deposit, or for a small fee. A bicycle is checked out to one person who will typically keep the bike for several months, and is encouraged or obliged to lock it between uses. A disadvantage of this system is a lower usage frequency, around three uses per day on average as compared to 2 to 15 uses per day typically experienced with other bike-sharing schemes. Advantages of long-term use include rider familiarity with the bicycle and a mode of travel that is always nearby and instantly ready for use. The bicycle can be checked out like a library book, a liability waiver can be collected at check-out, and the bike can be returned any time. A Library Bike in a person's possession can be chosen for some trips instead of a car, thus lowering car usage. The long-term rental system generally results in fewer repair costs to the scheme administrator, as riders are incentivised to obtain minor maintenance in order to keep the bike in running order during the long rental period. Most of the long-term systems implemented to date are funded solely through charitable donations of second-hand bicycles, using unpaid volunteer labour to maintain, and administer the bicycle fleet. While reducing or eliminating the need for public funding, such a scheme imposes an outer limit to program expansion. The Arcata Bike Library, in California, has loaned over 4000 bicycles using this system.
White bikes
Also known as free bikes, unregulated or first generation. In this type of programme the bicycles are simply released into a city or given area for use by anyone. In some cases, such as a university campus, the bicycles are only designated for use within certain boundaries. Users are expected to leave the bike unlocked in a public area once they reach their destination. Depending on the quantity of bicycles in the system availability of such bicycles can suffer because the bikes are not required to be returned to a centralised station. Such a system can also suffer under distribution problems where many bicycles end up in a valley of a city but few are found on the hills of a city. Since parked and unlocked bikes may be taken by another user at any time, the original rider might have to find an alternative transport for the return trip. This system does a way with the cost of having a person allocating a vehicle to a user and it is the system with the lowest hemmschwelle or psychological barrier for a potential user. However, bicycle sharing programs without locks, user identification, and security deposits have also historically suffered loss rates from theft and vandalism. Many initiatives have been abandoned after a few years (e.g. Portland's Yellow Bike Project was abandoned after 3 years), whiles others have been successful for decades (e.g. Austin's Yellow Bike Project active since 1997 years). Most of these systems are based around volunteer work and are supported by municipalities. Bicycle repair and maintenance are done by the a volunteer project or from the municipality contracted operator but a can be, and sometimes is, completed also by individual users who find a defect on the free bike.
Coin deposit stations
Also known as Bycykel or as second generation, this system was developed by Morten Sadolin and Ole Wessung of Copenhagen after both were victims of bicycle theft one night in 1989. They envisioned a freely available bicycle sharing system that would encourage spontaneous usage and also reduce bicycle theft. The Bicycles, designed for intense utilitarian use with solid rubber tires and wheels with advertising plates, have a slot into which a shopping cart return key can be pushed. A coin (in most versions a 20 Krona or 2 EUR coin) needs to be pushed into the slot to unlock the bike from the station. The bicycle can thus be borrowed free of charge and for an unlimited time and the deposit coin can be retrieved by returning the bicycle to a station again. Since the deposit is a fraction of the bike's cost, and user is not registered this can be vulnerable to theft and vandalism. However, the distinct Bycykel design, well known to the public and to the law authorities does deter misuse to a degree. Implemented systems usually have a zone or area where it is allowed to drive in. The first coin deposit (small) systems were launched in 1991 in Farsø and Grenå, Denmark, and in 1993 in Nakskov, Denmark with 26 bikes and 4 stations. In 1995 the first large-scale 800 bike strong 2nd generation bike-sharing program was launched in Copenhagen as Bycyklen.. The system was further introduced in Helsinki (2000-2010) and Vienna in (2002) and in Aarhus 2003.
Automated stations
Also known as docking stations bicycle-sharing, or membership bicycles or third generation consist of bicycles that can be borrowed or rented from a automated station or "docking stations" or "docks" and can be returned it at another station belonging to the same system. The docking stations are special bike racks that lock the bike, and only release it by computer control. Individuals registered with the program identify themselves with their membership card (or by a smart card, via cell phone, or other methods) at any of the hubs to check out a bicycle for a short period of time, usually three hours or less. In many schemes the first half-hour is free. In recent years, in an effort to reduce losses from theft and vandalism, many bike-sharing schemes now require a user to provide a monetary deposit or other security, or to become a paid subscriber. The individual is responsible for any damage or loss until the bike is returned to another hub and checked in. Although users of such systems generally pay to use vehicles that they themselves do not own, sharing systems differ from traditional for-profit bike rental businesses. This system was developed as Public Velo by Hellmut Slachta and Paul Brandstätter from 1990 to 1992, and first implemented by the University of Portsmouth and Portsmouth City Council as Bikeabout in 1996 and in Rennes as LE vélo STAR. Since then over 1000 bicycle sharing system of this generation have been launched. The countries with the most dock based systems are Spain (132), Italy (104), and China (79). As of June 2014, public bike share systems were available in 50 countries on five continents, including 712 cities, operating approximately 806,200 bicycles at 37,500 stations. As of May 2011, the Wuhan and Hangzhou Public Bicycle bike-share systems in China were the largest in the world, with around 90,000 and 60,000 bicycles respectively.. By 2013, China had a combined fleet of 650,000 public bikes.
E-bike sharing is becoming more popular. The e-bikes are generally recharged upon parking them at their station. E-bikes extend the range of the bikes and make cities with more difficult topographies more accessible to biking. In 2009, Chiyu Chen proposed the Hybrid2-system which stores some of the pedal power on a (ultra) capacitor. Similar to vehicle-to-grid systems, the energy is then fed back to the main electricity grid. The Ohio State University announced plans to integrate electric assist bicycles as part of its bicycle share program launching in 2015.
Dockless bikes
Also known as Call a Bike, the demand-responsive multimodal bike or fourth generation, the dockless bike hire systems consist of a bicycle with a lock that is usually integrated onto the frame and does not require a docking station. The earliest versions of this system consisted of for-rent-bicycles that were locked with combination locks and that could be unlocked by a registered user by calling the vendor to receive the combination to unlock the bicycle. The user would then call the vendor a second time to communicate where the bicycle had been parked and locked. This system was further developed by Deutsche Bahn in 1998 to incorporate a digital authentication codes (that changes) to automatically lock and unlock bikes. Deutsche Bahn launched Call a Bike in 2000, enabling users unlock via SMS or telephone call, and more recently with a app. Recent technological and operational improvements by telephones and GPSs have paved the way for dramatic increase of this type of private app driven "dockless" bicycle-sharing system. In particular in China, where Ofo, Mobike and oBike have become the world's largest bike share operators with millions of bikes spread over 100 cities.. Today dockless bike shares are designed whereby a user need not return the bike to a kiosk or station; rather, the next user can find it by GPS. Over 30 private companies have started operating in China. The system has spread globally, and times been criticized as "rogue" systems instituted without respect for local authorities. In some jurisdictions, authorities have been conficascating "rogue" dockless bicycles that are improperly parked for potentially blocking foot traffic on sidewalks. In some cities Deutsche Bahn's Call a Bike has Call a Bike fix system, which has fixed docking stations versus the flex dockless version, some systems are combined into a hybrid of third and fourth generation systems. Some Nextbike systems are also a 3rd and 4th generation hybrid. With the arrival of dockless bike shares, there are now over 70 private dockless bikeshares operating a combined fleet of 16 million sharebikes according to estimates of Ministry of Transport of China. Beijing alone has 2.35 million sharebikes from 15 companies.
Goals of bike sharing
The reasons and goals of Bike-sharing vary but can be grouped into the following Most large-scale urban bike sharing programmes utilise numerous bike check-out stations, and operate much like public transit systems, catering to tourists and visitors as well as local residents. Their central concept is to provide free or affordable access to bicycles for short-distance trips in an urban area as an alternative to motorised public transport or private vehicles, thereby reducing congestion, noise, and air pollution. Bicycle-sharing systems have also been cited as a way to solve the "last mile" problem and connect users to public transit networks.
People use bike-share for various reasons. Some who would otherwise use their own bicycle have concerns about theft or vandalism, parking or storage, and maintenance. However, dock systems, serving only stations, resemble public transit, and have therefore been criticized as less convenient than a privately owned bicycle used door-to-door.
- Economical
- Environmental
- Political
Operation
Bicycle-sharing systems are an economic good, and are generally classified as a private good due to their excludable and rivalrous nature. While some bicycle-sharing systems are free, most require some user fee or subscription, thus excluding the good to paying consumers. Bicycle-sharing systems also provide a discrete and limited number of bikes, whose distribution can vary throughout a city. One person's usage of the good diminishes the ability of others to use the same good. Nonetheless, the hope of many cities is to partner with bike-share companies to provide something close to a public good. Public good status may be achieved if the service is free to consumers and there are a sufficient number of bicycles such that one person's usage does not encroach upon another's use of the good.
Partnership with public transport sector
In a national-level programme that combines a typical rental system with several of the above system types, a passenger railway operator or infrastructure manager partners with a national cycling organisation and others to create a system closely connected with public transport. These programmes usually allow for a longer rental time of up to 24 or 48 hours, as well as tourists and round trips. In some German cities the national rail company offers a bike rental service called Call a Bike.
In Guangzhou, China, the privately operated Guangzhou Bus Rapid Transit system includes cycle lanes, and a public bicycle system.
In some cases, like Santander Cycles in London, the bicycle sharing system is owned by the public transport authority itself.
In other cases, like EnCicla in the city of Medellin (Colombia, South America), the Bicycle Sharing System is connected to other modes of transportation, such as the Metro.
Partnership with car park operators
Some car park operators such as Vinci Park in France lend bikes to their customers who park a car.
City CarShare, a San Francisco-based non-profit, received a federal grant in 2012 to integrate electric bicycles within its existing car-sharing fleet. The program is set to launch before the end of 2012 with 45 bikes.
Financing
The financing of bicycle-sharing system have been maintained by a combination of fees, volunteer, charity, advertisements, business interest groups and government subsidies. The international expansion dockless bicycles in mid 2010s has been financed by investment capital.
User fees
User rent fees may range from the equivalent of 0.50 to 30USD per day, rent fees for 15 or 20 minute intervals can range from a few cent to 1 USD. Many bike-share systems offer subscriptions that make the first 30-45 minutes of use either free or very inexpensive, encouraging use as transportation. This allows each bike to serve several users per day but reduces revenue. Monthly or yearly membership subscriptions and initial registration fees may apply. To reduce losses from theft often users are required to commit to temporary deposit via a credit card or debit card. If the bike is not returned within the subscription period, or returned with significant damage, the bike sharing operator keeps the deposit or withdraws money from the user's credit card account. operated by private companies as is the case in most cities in China.
Volunteer work
Many first and second generation bicycle sharing programs were and are run community organisations as "Community Bike programmes", as done in IIT Bombay. Often maintenance and repair is preformed by unpaid volunteers that complete this work from their own free time.
Charity sources
Charity fund raising drives and charitable organisations have and do support bicycle sharing programs, including Rotary Clubs and Lions Clubs.
Advertisement revenue
Second and third generation schemes in the 90s already prominently included advertising opportunities on the individual bikes in form of advertisement areas on the wheels or frame. Other schemes are completely branded according to a sponsor, notable example London's bike share which was originally branded and sponsored by Barclays Bank and subsequently by Santander UK Several European cities, including the French cities of Lyon and Paris as well as London, Barcelona, Stockholm and Oslo, have signed contracts with private advertising agencies (JCDecaux in Brussels, Lyon, Paris, Seville, Dublin and Oslo; Clear Channel in Stockholm, Barcelona, Antwerp, Perpignan and Zaragoza) which supply the city with thousands of bicycles free of charge (or for a minor fee). In return, the agencies are allowed to advertise both on the bikes themselves and in other select locations in the city. typically in the form of advertising on stations or the bicycles themselves.
Government subsidies
Municipalities have operated and do operate bicycle share systems as a public service, paying for the initial investment, maintenance and operations if it is not covered by other revenue sources. Governments can also supported bicycle share programs in forms of one time grants (often to buy a set of bicycles), yearly of monthly subsidies, or by paying part of the employee wages (example in repair workshops that employee long-term unemployed persons). Many of the membership-based systems are operated through public-private partnerships. Some schemes may be financed as a part of the public transportation system (for example Smoove). In Melbourne the government subsidises the sale of bicycle helmets to enable spontaneous cyclists comply with the mandatory helmet laws.
Harvesting of user-data
GPS traceable vehicle commute patterns and usage habits present valuable data for government agencies, marketing companies or researchers. Strong commuter patterns can be filtered out and potential transportation services (e.g. commuter bus) can be tailored to existing demand. Potential audiences can be better assessed and understood.
Usage patterns
Another advantage of bike-sharing systems is that the smart-cards allow the bicycles to be returned to any station in the system, which facilitates one-way rides to work, education or shopping centres. Thus, one bike may take 10-15 rides a day with different users and can be ridden up to 10,000 km (6,200 mi) a year (citing Lyon, France). Each bike has at least one of these rides with one unique user per day which indicates that in 2014 there were a minimum of at least 294 million unique bike share cyclists worldwide (806,200 bicycles x 365) although common sense indicates that this figure may be a very small estimate of the true number of bike share users.
It was found--in cities like Paris and Copenhagen--that to have a major impact there had to be a high density of available bikes. Copenhagen has 2500 bikes which cannot be used outside the 9 km2 (3.5 sq mi) zone of the city centre (a fine of DKr 1000 applies to any user taking bikes across the canal bridges around the periphery). Since Paris's Vélib' programme operates with an increasing fee past the free first half-hour, users have a strong disincentive to take the bicycles out of the city centre. The distance between stations is only 300-400 metres (1,000-1,300 ft) in inner city areas.
A study published in 2015 in the journal Transportation concludes that bike sharing systems can be grouped into behaviourally similar categories based upon their size. Cluster analysis shows that larger systems display greater behavioural heterogeneity amongst their stations, and smaller systems generally have stations which all behave similarly in terms of their daily utilisation patterns.
Global distribution of bike-sharing systems
Economic impact
Bike-share programs generate a number of economic externalities, both positive and negative. The positive externalities include reduction of traffic congestion and pollution, while the negative externalities include degradation of urban aesthetic environment and reduction of parking. Furthermore, bike-share programs have pecuniary effects. Some of these economic externalities (e.g. reduced congestion) can be systematically evaluated using empirical data, and therefore may be internalized through government subsidy. On the other hand, "nuisance" externalities (e.g. street and sidewalk clutter) are more subjective and harder to quantify, and may not be able to be internalized.
Positive externalities
Reduction of traffic congestion
A primary goal of bicycle-sharing systems has been to reduce traffic congestion, particularly in large urban areas. Some empirical evidence indicates that this goal has been achieved to varying degrees in different cities. A 2015 article in Transport Reviews examined bike-share systems in five cities, including Washington, D.C. and Minneapolis. The article found that in D.C., individuals substituted bike-share rides for automobile trips 8 percent of the time, and almost 20 percent of the time in Minneapolis. A separate study on Washington, D.C.'s Capital Bikeshare found that the bike-share program contributed a 2 to 3 percent reduction in traffic congestion within the evaluated neighborhood.
Reduction of pollution
Not only do bike-share systems intend to reduce traffic congestion, they also aim to reduce air pollution through decreased automobile usage. The study on D.C.'s Capital Bikeshare estimated that the reduction in traffic congestion would be equivalent to roughly $1.28 million in annual benefits, accrued through the reduction in congestion-induced CO2 emissions. A separate study of transportation in Australia estimated that 1.5 kilograms of CO2 equivalent emissions are avoided by an urban resident who travels 5 kilometers by cycling rather than by car during rush hour periods.
Negative externalities
Reduced car parking
Bike-share programs, especially the earlier services that required docking areas along urban streets, may encroach upon the space available for on-street car parking. Reduced car parking is therefore a negative externality, which is off-set by six to eight bikes fitting into one car park. As bike-share companies have transitioned into dockless programs, this effect may have been reduced.
Urban clutter
In some cities, the many dockless bike-share bicycles have cluttered streets and sidewalks, degrading the urban aesthetic environment and blocking pedestrian traffic. In particular, cycles on Chinese city streets have created sections of clogged sidewalks no longer walkable, and piles of illegally parked bicycles.
Pecuniary effects
As bicycle-sharing systems continue to grow and provide an affordable alternative for commuters, the relatively low price of these services may induce competitors to offer lower prices. For instance, municipal public transit organizations may lower prices for buses or subways to continue to compete with bike-share systems. Pecuniary effects may even extend to bicycle manufacturers and retailers, where these producers might reduce prices of bicycles and other complementary goods (e.g. helmets, lights). However, empirical research is needed to test these hypotheses.
Internalization of externalities
Public-private partnerships
In public economics, there is a role for government intervention in a market if market failures exist, or in the case of redistribution. As several studies have found, bike-share programs appear to produce net positive externalities in reduced traffic congestion and pollution, for example. The bike-sharing market does not produce at the social optimum, justifying the need for government intervention in the form of a subsidy for the provision of this good in order to internalize the positive externality. Many cities have adopted public-private partnerships to provide bike-shares, such as in Washington, D.C. with Capital Bikeshares. These partially government-funded programs may serve to better provide the good of bike-shares.
Dangers of over-supply
Many bike-share companies and public-private partnerships aim to supply shared bicycles as a public good. In order for bike-shares to be a public good, they must be both non-excludable and non-rival. Numerous bike-share programs already offer their services partly for free or at least at very low prices, therefore nearing the non-excludable requirement. However, in order to achieve the non-rival requirement, shared bicycles must be supplied at a certain density within an urban area. There are numerous challenges with attaining non-rivalry, for instance, redistribution of bicycles from low-demand regions to regions with high-demand. Mobike, a China-based company, is attempting to solve this problem by paying their users to ride their bikes from low-demand areas to high-demand areas. Other companies such as OBike have introduced a points system to penalize negative behavior, namely, illegal parking of shared bicycles. Economists speculate that a combination of efficient pricing with well-designed regulatory policies could significantly mitigate problems of over-supply and clutter.
The Chinese bicycle-sharing market demonstrated the danger of oversupply in 2018. Companies took advantage of unclear regulations in the preceding years to introduce millions of shared bikes to the country's cities. Users were not educated in how to use the systems properly, however, and in many cases treated them as disposable, parking them anywhere or sometimes just abandoning them entirely. City governments were forced to impound the abandoned bikes when they blocked public thoroughfares, and many were piled up in junkyards after the companies that owned them went bankrupt.
Health impacts
A study published in the American Journal of Public Health reports observing an increase in cycling and health benefits where bicycle sharing systems are run. In the United States, bikesharing programs have proliferated in recent years, but collision and injury rates for bikesharing are lower than previously computed rates for personal bicycling; at least two people have been killed while using a bike share scheme.
There is also considerable evidence that bike-share programs must be adopted in tandem with city infrastructure, namely, the creation of bike lanes. A 2012 study published in the American Journal of Public Health found that Toronto's cyclists were 30-50% more likely to be involved in an accident on major roads without cycle lanes than on those with.
Criticism
Despite their theoretical and observed benefits, bike-share programs have come under attack as their presence has grown throughout the world. Much of this criticism has focused on the use of public funding - concerned critics posit that the use of tax dollars for bike-share programs should instead be diverted towards building or maintaining roads and other services that more residents use on a daily basis. However, this argument relies on a faulty assumption that taxpayer money is a significant source of bike-share funding. An analysis by People for Bikes, an organization that advocates for new and safe bike infrastructure, found that public investment in Salt Lake City's Greenbike and Denver's B-Cycle programs was significantly less than traditional public transit (e.g. bus or rail) in those same cities, on a per-trip basis. Both Greenbike and B-Cycle's publicly funded subsidies amount to 10 percent or less of the total cost of one trip. In contrast, Salt Lake City's's bus and rail system (UTA) relies on 80 percent public funding for a single trip.
Other critics claim that bike-share programs fail to reach more low-income communities. Some efforts have attempted to address this issue, such as New York City's Citi Bike's discounted membership program, which is aimed at increasing ridership among low-income residents. However, around 80 percent of study respondents reported that they had no knowledge of the program's discount.
See also
Notes
References
External links
Source of the article : Wikipedia