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Shared space

Shared space is an urban street design approach pioneered by traffic engineer Hans Monderman in the late , which eliminates physical separations such as kerbs, traffic signals, and lane markings to create a single, undifferentiated zone for pedestrians, cyclists, and vehicles. The core principle relies on heightened mutual awareness and negotiation among users to self-regulate movement, thereby discouraging high vehicle speeds and prioritizing the street as a public realm over vehicular throughput. This design philosophy posits that removing regulatory cues fosters caution in drivers, leading to slower and potentially enhanced overall through reduced accident severity, as evidenced by lower speeds in implemented schemes. Empirical studies, including before-after analyses, have documented speed reductions and feasible coexistence of users in certain contexts, supporting claims of improved flow in low-to-moderate volumes. However, real-world applications reveal mixed outcomes, with some projects achieving vibrant activity and fewer severe collisions, while others face criticism for compromising among vulnerable groups like the visually impaired, who lose tactile and auditory orientation aids. Controversies persist due to inconsistent safety data; while proponents highlight empirical drops in injury rates from calmer traffic, detractors cite increased pedestrian discomfort and near-misses in higher-volume settings, prompting policy reversals such as the UK's 2018 halt on new shared space schemes amid accessibility concerns. Notable implementations, from Monderman's prototypes to London's Exhibition Road, demonstrate aesthetic and experiential gains but underscore the need for site-specific adaptations to balance mobility modes effectively.

History

Origins in the Netherlands

Hans Monderman, a Dutch traffic engineer born in 1945, began developing the principles of shared space during his tenure in the northern province of (also known as ) in the 1970s and 1980s. Employed as a and traffic safety controller there since 1969, Monderman investigated persistent high accident rates amid budget constraints that limited conventional infrastructure upgrades. In 1982, he was appointed head of the province's team, prompting initial experiments in villages like Oudehaske, where planned measures were abandoned in favor of removing regulatory signs, signals, and markings to foster driver uncertainty and mutual among road users. These early pilots in during the 1980s emphasized redesigning streets to blur boundaries between vehicles, pedestrians, and cyclists, drawing on observations that over-regulation encouraged complacency and higher speeds. By the mid-1990s, Monderman formalized this approach as the "naked street" concept, advocating for uncluttered public spaces that relied on human interaction rather than for and flow. A notable extension occurred in Drachten, where a major handling up to 22,000 vehicles daily was reconfigured without lights or lanes, though full implementation followed initial tests. Preliminary data from these experiments indicated reductions, with serious incidents dropping significantly—such as from multiple severe crashes annually to near-zero in select sites—attributed to lowered speeds (often by 40%) and heightened vigilance in low-volume, residential contexts. However, outcomes depended on local conditions like moderate traffic and cultural norms favoring caution, limiting generalizability without further controls. Monderman's work culminated before his death in 2008, establishing shared space as a response to Friesland's challenges rather than a universal model.

International adoption and evolution

The principles of shared space, originating in the , gained traction internationally from the early 2000s as urban planners in sought alternatives to traditional to enhance livability. In the , adoption accelerated following visits and demonstrations by Hans Monderman, whose ideas influenced British engineers and policymakers. The Department for Transport's Manual for Streets (2007) introduced shared surface concepts for low- residential areas, emphasizing reduced and level surfaces to prioritize pedestrians over vehicles. This guidance marked a policy shift toward integrating shared space elements into national design standards, building on Dutch precedents. By 2011, the UK's Local Transport Note 1/11 provided dedicated advice on implementing shared space schemes, defining them as designs that minimize motor vehicle dominance through ambiguous boundaries and behavioral cues rather than regulatory controls. Early applications emerged in the 2010s, such as the Exhibition Road transformation in , where construction began around 2009 and the shared space layout opened in 2012, eliminating curbs along a 1 km stretch to create a unified public realm. Concurrently, the approach spread across continental Europe; in and , municipal projects in the 2000s adapted Dutch models amid broader urbanism trends favoring pedestrian-friendly mobility, with examples in cities like Bohmte and incorporating uncluttered streets inspired by Monderman's "naked streets." Into the , shared space evolved toward variants to address implementation challenges, retaining core but reintroducing selective elements like or subtle markings for vulnerable users, as outlined in updated guidance. Post-2020, enthusiasm for new pure shared space installations waned amid safety-focused reviews, such as critiques of evidence gaps in prior policies, prompting a pivot to retrofits in already low-traffic zones rather than high-volume arterials. This cautious adaptation reflected growing scrutiny in policy circles, prioritizing contextual suitability over expansive rollout.

Core Principles and Design Features

Philosophical underpinnings

The philosophical foundation of , as articulated by traffic engineer Hans Monderman in the late and , rests on the premise that excessive regulatory —such as traffic signs, lane markings, and physical segregations—fosters complacency among road users, diminishing their vigilance and interpersonal awareness. Monderman argued that stripping away these elements introduces a deliberate , compelling drivers, pedestrians, and cyclists to navigate through direct like and mutual yielding, thereby elevating individual accountability in low-speed environments. This approach assumes rational actors respond adaptively to heightened uncertainty, prioritizing contextual over predefined hierarchies of priority. In contrast to conventional traffic engineering, which relies on codified rules and barriers to enforce separation and predict behavior, shared space embodies a skepticism toward over-reliance on mechanical controls, positing that such measures inadvertently erode human judgment by signaling that compliance alone suffices for safety. Monderman's rationale draws from observations in rural Dutch settings, where informal, unregulated interactions yielded lower conflict rates than rule-bound urban junctions, suggesting that psychological deterrence—induced by ambiguous layouts—more effectively moderates speeds and risks than physical constraints. This causal chain underscores a preference for emergent order arising from user interactions, rather than imposed uniformity, challenging the notion that equality of access demands equal spatial allocation. At its core, the philosophy privileges observable human tendencies toward caution under perceived vulnerability, rejecting paternalistic designs that treat users as incapable of self-regulation; Monderman famously contended that "if you treat people like idiots, they will behave like idiots," advocating instead for environments that demand respect through shared exposure to potential friction. This framework aligns with a realist view of causation in social systems, where emerges not from utopian elimination of vehicles but from behavioral adaptations to intertwined risks, grounded in empirical patterns of among unequally empowered actors—such as slower-yielding vehicles to pedestrians—without mandating enforced equity. It thus critiques regulatory excess as a barrier to innate , though its efficacy hinges on contexts where stakes remain low and users are predominantly local.

Key design elements and implementation strategies

Shared space designs entail removing traditional segregators including curbs, lane markings, traffic signals, and regulatory signage to foster uniform surfacing across the roadway. This , often composed of textured materials such as unit pavers or stone setts, eliminates visual cues of vehicular priority, inducing drivers to adopt cautious through perceived in the . Additional tactics incorporate varied surfacing patterns, subtle roadway narrowings, and low-profile obstacles like bollards to heighten visual complexity and psychologically constrain vehicle speeds by compelling negotiation with other users. Street furniture such as benches, planters, , and lighting fixtures is strategically placed to delineate informal zones and assert spatial dominance for non-motorized users, further moderating vehicular flow without explicit controls. For implementation, sites are selected based on low-to-moderate daily traffic volumes generally below 3,000 vehicles, constrained lengths to limit exposure, and homogeneous user compositions to facilitate intuitive interactions. established streets frequently commences with temporary pilots employing reversible materials and monitoring to refine permanent installations, ensuring adaptations align with observed spatial dynamics.

Empirical Evidence of Effectiveness

Safety outcomes and accident statistics

Early implementations of shared space in the , such as the Drachten pilot completed between 2004 and 2006, reported substantial accident reductions. Prior to redesign, the town center experienced an average of 8.3 collisions per year from 1994 to 2002; post-implementation, this fell to approximately one per year by 2005, despite increased traffic volumes. Similar evaluations claimed average crash reductions of 10-50% across shared space sites by fostering lower speeds through perceptual . However, these figures have been critiqued for methodological flaws, including failure to account for regression to the mean—where high-accident locations naturally see declines over time—and reliance on small sample sizes without volume-adjusted injury rates per user type. In the , the 2015 Holmes Report reviewed over 100 shared space schemes and found evidence of safety benefits overstated, with qualitative data indicating under-reporting of incidents—only 11% of surveyed accidents were officially recorded, potentially skewing before-after comparisons. Among 523 respondents, 28 reported collisions (including pedestrian-vehicle impacts), but aggregate quantitative trends showed no consistent decline in rates when controlling for changes; instead, minor pedestrian incidents appeared undercounted due to self-resolution or deterrence from reporting. A review of simplified streetscapes similarly concluded that available collision data neither confirmed nor refuted safety gains, highlighting gaps in long-term monitoring and randomized controlled trials (RCTs). Post-2010 European before-after studies present mixed results. A 2023 analysis of a shared space implementation used surrogate safety measures and to estimate crash risk, finding significant reductions in potential conflicts post-redesign, attributed to speed drops from 30-40 km/h to under 20 km/h, consistent with patterns for severe crashes. Yet, these studies often lack causal isolation, with no broad evidence of net injury rate improvements across user types; some indicate rises in low-severity collisions due to heightened interactions, unadjusted for traffic volume shifts. Overall, while speed reductions correlate with fewer fatalities, the absence of rigorous, volume-controlled RCTs and reliance on short-term observational data limit verifiable claims of superior over conventional designs.

Impacts on traffic flow and vehicle speeds

Studies on shared space implementations consistently report reductions in average speeds, attributed to the removal of visual cues like curbs and signals, which introduce perceptual and encourage cautious driving. For instance, empirical observations using video analysis in urban shared spaces found vehicle speeds dropping below 15 km/h on average, compared to higher speeds in conventional environments with defined . A 2023 comparative study of shared versus conventional roads, employing from multiple sites, confirmed significant speed reductions alongside lower speed variance, indicating more uniform low-velocity travel due to heightened of mixed users. These effects align with causal mechanisms where design-induced prompts self-regulation, though measurements rely on short-term rather than long-term GPS tracking, potentially overlooking over time. Traffic flow improvements vary by volume and context, with benefits evident in low-to-moderate demand areas but risks of inefficiency in denser settings. A University of British Columbia analysis of shared intersections showed reduced delays for both vehicles and pedestrians through fluid, negotiation-based movement at low speeds, outperforming signalized alternatives in throughput during off-peak periods. Similarly, a 2019 simulation-validated case study in a congested urban corridor reported up to 50% shorter travel times and 66% lower delays post-implementation, linked to diminished stop-start patterns. However, higher-traffic scenarios reveal drawbacks, including potential queuing from slowed vehicles and driver deviations onto parallel routes, as observed in European pilots where flow gains were negated by induced rerouting without overall network relief. Empirical data from speed and trajectory logging underscores that while local speeds fall (e.g., mean maxima from 19 km/h to 17 km/h with elevated pedestrian presence), aggregate capacity does not universally increase, particularly without complementary demand management to counter behavioral shifts like shortcut-seeking.

Behavioral and perceptual effects on users

In shared spaces, empirical observations from video analyses reveal increased driver yielding to pedestrians, with rates rising from 10.4% pre-implementation to 24.8% post-implementation in studied sites, attributed to reduced vehicle speeds and enforced mutual negotiation. Drivers demonstrate approximately seven times greater likelihood of yielding to assertive pedestrians who step into the roadway, compared to those waiting passively, as quantified through models explaining about 30% of yielding variance. Behavioral adaptations include wider pedestrian crossing angles (median 79° in central shared sections versus 36° at edges) and elevated rates of and hand signaling for passage negotiation, particularly in low-speed, low-conflict environments where formal signals are absent. Perceptual responses among drivers often involve heightened caution and alertness due to spatial uniformity and uncertainty, with virtual reality experiments confirming preferences for yielding in shared street scenarios over segregated ones, though rated as more chaotic for vehicle operation. Pedestrians report mixed safety perceptions, with surveys post-implementation showing improvements in feelings of safety for walking (94% agreement in one case study) and crossing (from 19.6% to 37.4%), linked to observed speed reductions of 13% on average; however, these gains are design-dependent, with transverse elements and partial zoning yielding higher positive responses (up to 53% reporting reduced collision risk). Vulnerable groups, including females and older users, exhibit more negative attitudes toward interactions and vehicle dominance, with evidence of elevated anxiety for non-local or novice users arising from ambiguous rules and persistent vehicle-pedestrian power asymmetries, as perceptions of chaos persist despite behavioral adaptations. Questionnaire data underscores this context-dependency, where low-density, well-calibrated implementations enhance mutual awareness without universal psychological benefits, while higher volumes amplify discomfort.

Notable Implementations

European examples

In the , Drachten implemented one of the earliest shared space schemes in 2001, converting a major intersection known as Laweiplein into a without lights, , or delineated lanes, influencing subsequent projects. The town, with a population under 45,000, handled significant volumes through this retrofit, emphasizing user negotiation over signage. Nearby, Haren followed in 2002 with similar removals of conventional controls in its town center. Germany's Bohmte introduced a shared space system in September 2007 on its main street, stripping away traffic lights, signs, road markings, and curbs to promote mutual awareness among users as part of an EU-funded initiative involving multiple countries. This retrofit in the small northern town aimed to integrate pedestrians, cyclists, and vehicles without physical separations. In the , in completed a £4 million shared space retrofit at its town center junction in 2011, removing kerbs and markings to alter driver behavior and enhance pedestrian priority. London's Exhibition Road, spanning South Kensington's cultural district, opened as a continuous shared surface in February 2012, accommodating approximately 20,000 vehicles daily alongside high pedestrian and cyclist volumes without traditional barriers. Later implementations in both countries often incorporated partial kerbs or subtle visual cues as adaptations from pure Monderman designs. These sites, primarily from the 2000s, remain in use with ongoing maintenance, though some European retrofits have seen incremental modifications for accessibility.

Non-European examples

In , shared space principles have been applied in urban street redesigns, such as Hargreaves Street in , , where the design integrates with an adjacent pedestrian mall while permitting limited access to foster a blended for multiple users. Similarly, in features shared zones around newly constructed stops, emphasizing high-quality streetscape elements to encourage reduced speeds and enhanced activity. has conducted evaluations since the 2010s, identifying shared space strategies like de-cluttering and colored pavements, though implementations remain small-scale and focused on low-speed urban contexts amid higher car dependency. New Zealand has adopted shared zones in commercial areas, exemplified by Fort Street in , redesigned to minimize segregation between vehicles, cyclists, and pedestrians, resulting in increased visitor numbers for shopping and social activities. Guidance from the NZ Transport Agency outlines divisions into trafficable, accessible, and activity zones to balance uses, with applications generally limited to urban environments post-2012 policy developments. In the United States, shared space trials are rare and often piloted in specific neighborhoods, such as Bell Street Park in , , and Davis Street in , where removal of traditional barriers aims to prioritize social functions over vehicular priority, though challenged by liability concerns and cultural reliance on separated infrastructure. Arlington, Virginia's Neighborhood program tests shared street environments using temporary materials on residential roads to assess feasibility in car-oriented suburbs. Overall, non-European adoption post-2010 has been constrained, with projects adapting designs for denser traffic volumes but yielding mostly descriptive outcomes rather than widespread transformation due to legal and perceptual barriers.

Criticisms and Controversies

Safety risks for vulnerable road users

Shared spaces heighten risks for vulnerable road users—including pedestrians, cyclists, and those with disabilities—by relying on behavioral among users with unequal capabilities, such as differing speeds, , and sensory , rather than physical barriers to enforce priority. This approach assumes mutual deference, but empirical observations reveal asymmetries where slower or impaired users often yield to or cyclists, increasing exposure to collisions. For blind and visually impaired individuals, the elimination of kerbs, , and distinct surfaces removes critical cues for navigation and orientation, leading to disorientation, heightened anxiety, and accidental veering into traffic paths. Guide Dogs UK has documented post-implementation reports from the onward, where users describe shared surfaces as discriminatory, effectively excluding them from street access by blurring safe zones. The Royal National Institute of Blind People (RNIB) echoed this in critiques of schemes like Exhibition Road in , noting that ambiguous environments undermine training and independent mobility. Cyclist-pedestrian conflicts escalate in these settings, with automated video analyses showing elevated near-miss frequencies—up to 50 times higher than actual collisions—due to unpredictable trajectories and lack of segregated paths. Pedestrians, especially children or the elderly, face disproportionate risks from cyclists' higher speeds, as shared space discourages yielding and amplifies perceptual errors. A 2015 independent review by Lord Holmes of Richmond, surveying over 600 users, found 63% rated shared spaces as poor overall, with disabled respondents reporting overwhelmingly negative experiences, including feelings of intimidation and exclusion; the report labeled such designs a "false promise" for and urged a halt to further rollouts pending accommodations. advocacy groups, including the National Federation of the Blind UK, have opposed implementations since the early , arguing that unverified claims of universal responsibility ignore real-world power imbalances favoring sighted, able-bodied, or motorized users. Empirical studies confirm no net gains for non-motorized users in mixed-traffic shared spaces, with surrogate metrics indicating persistent hazards absent targeted mitigations like retained kerbs.

Limitations in diverse urban contexts

In high-traffic urban environments, shared space designs often fail to induce the intended and speed moderation, as motorists exploit the ambiguous layout for shortcuts, resulting in sustained or increased vehicle dominance and . Empirical observations from implementations indicate that heavy goods vehicles and high volumes overwhelm priority, leading to aggressive and user frustration rather than cooperative behavior. This mismatch arises because the design's causal mechanism—psychological hesitation from removed demarcations—does not scale to environments where exceeds the street's to enforce low speeds through negotiation alone. Cultural and normative differences exacerbate these issues in heterogeneous or non-Western urban contexts, where road users may not adhere to the implicit of yielding assumed in European-origin designs. In cities with prevalent informal driving practices, such as frequent lane encroachment or minimal regard for precedence, shared spaces amplify conflicts rather than resolving them, as evidenced by higher incidence of near-misses in diverse traffic mixes. Compliance relies on shared cultural expectations of restraint, which are absent in settings dominated by high-density, utilitarian norms common in developing economies. Shared space efficacy is further constrained by physical scale, performing reliably only in short segments—typically under 100 meters—where initial uncertainty persists before drivers adapt and accelerate. In extended or networked urban layouts, the effect dissipates, reverting to vehicular priority and undermining the design's core intent. Post-2018 policy shifts, informed by evaluations of busy trials, halted new schemes without pedestrian segregation, reflecting reversals in schemes like those in Ashford and Exhibition Road where sustained high usage eroded benefits. Economically, retrofitting busy streets incurs substantial upfront costs for uniform surfacing and minimal infrastructure, often exceeding £1 million per kilometer in UK examples, with unproven returns in high-volume settings due to negligible traffic flow improvements and accelerated wear from mixed-use abrasion. Maintenance burdens compound this, as seamless pavements degrade faster under vehicular loads, necessitating frequent repairs without corresponding safety or economic gains in diverse contexts.

Evidence gaps and methodological challenges

Research on shared space designs has predominantly relied on short-term, localized before-and-after studies lacking groups, which limits the ability to isolate the intervention's effects from factors such as seasonal variations or concurrent changes. Large-scale, long-term randomized controlled trials (RCTs) are notably absent, with evaluations often confined to small samples in low-traffic areas, introducing by highlighting perceived "successes" while underreporting failures or neutral outcomes in diverse contexts. This methodological shortfall is compounded by inconsistent definitions of shared space, complicating meta-analyses and cross-scheme comparisons. Causal attribution remains problematic, as observed reductions in speeds or rates are frequently correlated with shared space features but not rigorously demonstrated as caused by them, overlooking variables like familiarity or levels. Near-misses and minor incidents are systematically underreported— with only about 11% of formally recorded by —due to reliance on self-reported data or incomplete monitoring protocols, skewing safety assessments toward optimistic interpretations. and user perception studies suffer from similar issues, including biases that amplify vocal advocacy over representative feedback, particularly from vulnerable groups. These gaps have prompted policy reevaluations, such as the UK's Department for Transport revising its 2011 Local Transport Note 1/11 guidance and issuing a 2018 ministerial pause on new level-surface shared space schemes in high-pedestrian areas, citing insufficient evidence of inclusivity and safety for disabled users. Independent reviews, including parliamentary inquiries, have called for a moratorium on implementations pending comprehensive audits and longitudinal data collection to address these evidentiary voids. Overall, the field's progression toward epistemic rigor demands standardized metrics, independent oversight, and disaggregated analyses to mitigate advocacy-influenced narratives that prioritize perceptual benefits over verifiable causal impacts.

References

  1. [1]
    Hans Monderman - Project for Public Spaces
    Hans Monderman (1945 – 2008), a Dutch traffic engineer, turned urban transportation planning upside down with the idea of “Shared Space”.Missing: originator | Show results with:originator
  2. [2]
    Space for People, Not for Cars - Works That Work
    Hans Monderman, father of the Shared Space movement, argued that reducing traffic regulations can improve road safety. Statistics prove him right, but not ...
  3. [3]
    What is Shared Space? - Project for Public Spaces
    Oct 5, 2017 · Shared space is a tool for holistically retrofitting streets as places. In conventional street design, the functions of movement and mobility ...
  4. [4]
    Shared space is a new type of design based on mutual consideration
    Under certain conditions streets and squares may be designed as shared space, i.e. an area where road users decide together how to share the area.
  5. [5]
    Empirical investigation of shared space traffic: A comparison to ...
    Shared space is often defined as a more pedestrian-friendly road environment (Kaparias and Wang, 2020); but it is questionable how this “friendliness” is ...
  6. [6]
    Before-after safety analysis of a shared space implementation
    The shared space concept proposes to integrate road users to regulate traffic and improve safety. The main assumption is that, by promoting barrier-free ...
  7. [7]
    Shared Space and Pedestrian Safety: Empirical Evidence ... - MDPI
    The fundamental purpose of shared space is to improve pedestrian safety and mobility by reducing the traffic control features that tend to encourage drivers to ...
  8. [8]
    [PDF] Accidents by Design: The Holmes Report on “shared space” in the ...
    The most controversial elements of many shared space schemes is this removal of kerbs and pedestrian crossings. There is no single definition of “shared space” ...
  9. [9]
    DfT ban on shared spaces 'created a fiasco' - New Civil Engineer
    Oct 4, 2018 · The Department for Transport (DfT) has been accused of sparking a “fiasco”, after it ordered all shared space road schemes to be halted.
  10. [10]
    The concept of 'shared space' in traffic safety - Heavenly Holland
    Sep 27, 2016 · Did you know that Hans Monderman (1945-2008) from Friesland designed the concept of 'shared space' in traffic safety?
  11. [11]
    (PDF) Shared space – research, policy and problems - ResearchGate
    Aug 5, 2025 · Shared space is an approach to street design which minimises demarcations between vehicles and pedestrians. It has become particularly influential in the UK.
  12. [12]
    Hans Monderman | Road safety | The Guardian
    Feb 1, 2008 · In 1982, Monderman was appointed to head the road safety team for Friesland following growing national concern about road deaths and injuries.Missing: province 1980s
  13. [13]
    Story | Hans Monderman's Naked Streets - Maharam
    During the 1980s and 1990s, Hans Monderman conducted a series of radical experiments on the roads of towns and villages in Friesland in the northern ...Missing: career province
  14. [14]
    Roads Gone Wild - WIRED
    Dec 1, 2004 · Hans Monderman is a traffic engineer who hates traffic signs. · It's no surprise that the Dutch, a people renowned for social experimentation in ...Missing: origins Netherlands
  15. [15]
    Instead of top down safety
    Dec 2, 2012 · Then came Hans Monderman. This Dutch traffic engineer was given the task of reducing speeds on a particular street in the central parts of ...Missing: origins Netherlands
  16. [16]
    [PDF] Manual for Streets - GOV.UK
    MfS focuses on lightly-trafficked residential streets, but many of its key principles may be applicable to other types of street, for example high streets and ...
  17. [17]
    Hans Monderman: Rethinking the design of streets and public space.
    Apr 19, 2015 · ... shared space as a means to influence speed and driver behaviour. Monderman has been the inspiration behind scores of towns and villages ...Missing: originator | Show results with:originator
  18. [18]
    [PDF] Local Transport Note 1/11 | NACTO
    Oct 11, 2011 · In general, shared space schemes achieve their maximum benefits when pedestrians use the space in the street that would be dedicated primarily ...
  19. [19]
    West London Exhibition Road re-opens as 'shared-space' - BBC News
    Feb 1, 2012 · After three years of construction work, one of west London's most famous streets has been officially re-opened.Missing: timeline | Show results with:timeline
  20. [20]
    [PDF] The Manual for Streets: evidence and research - GOV.UK
    The sites included roads with a range of surface types, varying use of speed restriction measures, different levels of on-street parking and a range of forward.
  21. [21]
    [PDF] Shared Space: Safe or Dangerous?
    The aim is not in the first place to improve traffic capacity or road safety by getting rid of accident concentrations or finding solutions to improve the ...Missing: pilots reduction
  22. [22]
    The Story of Hans Monderman and the Safety of Insecurity
    Oct 25, 2016 · What he wanted were wide-open intersections—so-called “shared spaces”—and he wanted them to be a little intimidating, a little ambiguous.Missing: originator | Show results with:originator
  23. [23]
    SHARED SPACES: WHERE THE STREETS HAVE NO RULES
    Feb 22, 2023 · That's the theory behind the concept known as Shared Spaces, which was created by Dutch traffic engineer Hans Monderman. In the United States, ...<|separator|>
  24. [24]
    Psychology of Shared Spaces
    Apr 19, 2023 · Shared spaces, or “naked streets,” are designed to be shared by everyone using every mode, without the traditional segregation of space.
  25. [25]
    Commercial Shared Street - NACTO
    A commercial shared street environment should be considered in places where pedestrian activity is high and vehicle volumes are either low or discouraged.
  26. [26]
    [PDF] Designing Shared Space - NET
    Jul 23, 2019 · Surface detailing, base and sub-base design are the remit of engineers who should also detail the structural aspects of bedding, jointing,.
  27. [27]
    [PDF] Shared Space – Auckland – Operational Safety Study
    Also, traffic volumes were considered higher than desirable. (above 3,000 vehicles/day) at two Shared Spaces. ... a Shared Space. Reducing both traffic ...Missing: per | Show results with:per
  28. [28]
    [PDF] Shared Streets Study - City of Minneapolis
    Shared streets typically serve as destinations, placing emphasis on comfort and social interaction rather than vehicle throughput. Cities such as Seattle, ...
  29. [29]
    Shared space, where the streets have no rules - CNN
    Oct 5, 2015 · Despite increases in traffic volumes, accident numbers fell from 8.3 per year between 1994 and 2002 to an average of just one per year in 2005.Missing: statistics | Show results with:statistics
  30. [30]
    https://www.aviewfromthecyclepath.com/2014/04/where-crashes-are-shared-space-and.html
  31. [31]
    Halt city 'shared spaces', says report by Lord Holmes - BBC News
    Jul 3, 2015 · Shared space is not a safe place, overzealous councils are risking public safety for aesthetics and the result is confusion, chaos ...Missing: 2011 | Show results with:2011
  32. [32]
    [PDF] A Review of Simplified Streetscape Schemes | TfL
    The collision and casualty data identified for this review, did not prove the safety case for simplified streetscapes, or shared spaces, one way or the other.Missing: accident | Show results with:accident
  33. [33]
    Before-after safety analysis of a shared space implementation - arXiv
    Jul 3, 2023 · Shared spaces aim to reduce the dominance of motor vehicles by promoting pedestrian and cyclist activity and minimizing segregation between road ...Missing: UK TRL
  34. [34]
    [PDF] Potential application of Shared Space principles in urban road design
    Removal of kerbs (in level surface or 'shared surface' implementations of shared space) removes an important guidance tool and leaves these pedestrians unable ...Missing: curbs | Show results with:curbs
  35. [35]
    Empirical investigation of shared space traffic: A comparison to ...
    Aug 22, 2023 · The results show that pedestrian crossings were increased in shared space when vehicle headways were high. Shared space results in a significant ...
  36. [36]
    Shared space intersections mean less delay | CNU
    Feb 10, 2016 · ... volumes of traffic and pedestrians, the study showed. “The shared spaces carried up to 680 vehicles per hour and up to 1,536 pedestrians per ...Missing: day | Show results with:day
  37. [37]
    Evaluation of Shared Space to Reduce Traffic Congestion - 2019
    Jun 13, 2019 · The results of the analysis show that shared space can reduce vehicle travel time by up to 50% and delays by 66%. 1. Introduction. Shared space ...
  38. [38]
    Evaluation of Shared Space to Reduce Traffic Congestion
    Jun 13, 2019 · The results of the analysis show that shared space can reduce vehicle travel time by up to 50% and delays by 66%.<|separator|>
  39. [39]
    [PDF] Shared space: Motorists' perspective - VTI
    Aug 21, 2024 · Pairwise comparisons revealed that vehicles' mean maximum speed was significantly lower with high (M = 17.2 km/h) compared to low (M = 19.0 km/h) ...
  40. [40]
    [PDF] The Effect of Shared Space on Attitudes and Behaviour
    Mar 10, 2017 · This research represents a unique opportunity to assess the impact of shared space by examining people's attitudes and behaviour before and ...
  41. [41]
    Can we all coexist? An empirical analysis of drivers' and pedestrians ...
    Shared space has a slightly different objective, as it invites road users to coexist by following a safer traffic behavior that may mean speed reductions ( ...
  42. [42]
    https://doi.org/10.1371/journal.pone.0266591
  43. [43]
    https://doi.org/10.3390/su11174645
  44. [44]
    Shared space, where the streets have no rules - CNN
    Sep 22, 2014 · The town of Drachten in the Netherlands was one of the first to experiment the concept in 2002 by removing nearly all traffic signals with the ...Missing: origins | Show results with:origins
  45. [45]
    Where the crashes are: Shared Spaces and other poor junction ...
    Apr 7, 2014 · Many sources, Wikipedia included, include a claim that "yearly accidents were reduced to 1" in the centre of Drachten due to the introduction of ...Missing: pilots | Show results with:pilots<|control11|><|separator|>
  46. [46]
    The Life and Death of Shared Space? - peopleandplacesprojects
    Oct 24, 2012 · The first implementation of Shared Space as we know it, was in the village of Makkinga (NL) in 1991. A while after that, the cities of Drachten ...
  47. [47]
    German Town's Traffic Plan: Remove Signs, Curbs - NPR
    Jan 19, 2008 · Bohmte, a small town in Germany, is implementing a "Shared Space" plan to decrease its traffic accident rate: strip a busy main street of ...
  48. [48]
    Sharing Space: German Town Scraps Road Signs to Increase Safety
    Sep 12, 2007 · Pedestrians and cyclists in Bohmte will have to rely on their wits from now on -- the town is abolishing traffic signs.
  49. [49]
    [PDF] Combined Statement of Reasons - Cheshire East Council
    Sep 1, 2016 · town centre, a £4 million 'Shared Space' scheme was created in 2011 at the junction in the centre of the town. The Shared Space scheme also ...
  50. [50]
    Exhibition Road Shared Space Project - Greater London Authority
    Since completion of the scheme, only one month of finalised collision data (December 2011) and seven months of provisional collision data (January 2012 - July ...
  51. [51]
    [PDF] Shared Space: Safe of Dangerous? - svpt.uni-wuppertal.de
    The aim is not in the first place to improve traffic capacity or road safety by getting rid of accident concentrations or finding solutions to improve the ...Missing: pilots reduction
  52. [52]
    Case study - shared space in Bendigo - Victoria Walks
    The shared space in Hargreaves Street complements Hargreaves Mall, which is primarily a pedestrian space, but still has restricted vehicle access.
  53. [53]
    Case Study: Swanston St.; Melbourne, Australia
    High-quality streetscape design, which reflects the unique characteristics of the city. Newly constructed tram stops brought in a shared zone, changing cyclist, ...
  54. [54]
    [PDF] Evaluation and Implementation of Shared Spaces in NSW
    Strategies used within shared space designs can vary from simply signifying a change in road environment through de-cluttering, coloured pavements or addition ...
  55. [55]
    Case Study: Fort Street; Auckland, New Zealand
    Fort Street showcases how shared streets can turn a district into a destination, increasing visitors for shopping and other activities.
  56. [56]
    Shared zones | NZ Transport Agency Waka Kotahi
    Shared spaces can be divided into a 'trafficable zone', an 'accessible zone' and an 'activity zone'. The 'trafficable zone' is the space where motorists are ...
  57. [57]
    [PDF] Shared Space in Urban Environments Guidance Note July 2012
    Jul 6, 2012 · For example Exhibition Road in London was completed in late 2011 and includes a level surface on a street accommodating around 20,000 vehicles ...<|separator|>
  58. [58]
    Sharing the Street: Shared Space in an American Context
    Three recent examples of shared space in the United States are studied: Bell Street Park in Seattle, WA; Davis Street in Portland, OR; and Santana Row Promenade ...Missing: implementations | Show results with:implementations
  59. [59]
    Neighborhood Complete Streets - Shared Street Pilot Projects
    The Neighborhood Complete Streets Program is piloting a Shared Street environment on neighborhood streets using durable temporary materials.
  60. [60]
    Shared Space Road Design Proves Controversial, But Fed Embraces
    Dec 26, 2019 · The study concluded that Shared Space Road Use design could save drivers time and would be more convenient for pedestrians. According to the ...
  61. [61]
    [PDF] Safety in Road Traffic for Vulnerable Users
    The accident risk to which cyclists are exposed is comparatively high considering cyclist traffic share of total traffic. Of all accidents involving cyclists: − ...
  62. [62]
    Assessing safety of shared space using cyclist-pedestrian ...
    Yet, little empirical evidence exists concerning the risk of pedestrian-cyclist collisions in shared spaces. ... pedestrian-cyclist incidents, and how ...
  63. [63]
    Streets Ahead Campaign | Guide Dogs
    Shared surface streets are dangerous for people with a vision impairment, who rely upon the presence of the kerb to know they are on the pavement and not in ...Missing: hazards | Show results with:hazards
  64. [64]
    Briefing: Guide Dogs announces results of shared surfaces research
    Jun 1, 2008 · Shared surfaces discriminate against blind and partially sighted and other disabled people, effectively excluding them from the street environment.Missing: hazards visually<|separator|>
  65. [65]
    Response to shared space scheme on Exhibition Road - RNIB
    Mar 25, 2019 · The schemes often remove kerbs and tactile paving which blind and partially people, and trained guide dogs, rely on for safe guiding, and also ...
  66. [66]
    Near accidents and collisions between pedestrians and cyclists
    Jun 30, 2021 · The main results show that near accidents between pedestrians and cyclists are around 50 times more frequent than collisions.
  67. [67]
    [PDF] For whom is sharing really scaring? capturing unobserved ...
    Apr 27, 2024 · Perceived safety and experienced incidents between pedestrians and cyclists in a high-volume non-motorized shared space. Transportation Research ...
  68. [68]
    Pressure group unhappy with shared space guidelines
    Mar 18, 2016 · The National Federation of the Blind UK* (NFBUK) says visually impaired people have not been properly consulted about new guidelines on shared ...
  69. [69]
    In developing countries, cities aren't living up to their potential
    Feb 1, 2024 · Overcrowding, in short, is a feature of many cities in these countries. People live in substandard housing, lack open space, and have inadequate ...<|separator|>
  70. [70]
    The Myth Of Shared Space - The Ranty Highwayman
    Feb 5, 2016 · Shared space fails when there aren't low speeds of motor vehicles, it fails when there are too many motor vehicles and it is likely to fail is ...
  71. [71]
    'Shared' road schemes paused over dangers to blind people - BBC
    Jul 27, 2018 · Plans for new "shared-space" road schemes are to paused over fears they are "dangerous and difficult to navigate" for visually impaired people.
  72. [72]
    Are Shared Spaces Bringing us Together or Sending us Into Chaos?
    Jun 11, 2015 · Due to a public consultation that took place in 2012, O'Connell Street has been transformed into a shared space. What makes this shared space's ...
  73. [73]
    [PDF] Shared Space - Centre for Excellence in Universal Design
    Oct 4, 2024 · sustainable safety : national road safety outlook for 2005-2020, Leidschendam, The. Netherlands, SWOV Institute for Road Safety Research.<|separator|>
  74. [74]
    Shared spaces - Parliament UK
    Apr 24, 2017 · A street or place designed to improve pedestrian movement and comfort by reducing the dominance of motor vehicles and enabling all users to share the space.
  75. [75]
    DPTAC position on 'shared space' - GOV.UK
    Jun 13, 2018 · However, the report recognises the lack of evidence on, and evaluation of, existing shared space schemes. The report therefore - sensibly - ...Missing: quality | Show results with:quality
  76. [76]
    [PDF] Ministerial letter regarding shared space: 28 September 2018
    Sep 28, 2018 · The letter clarifies shared space schemes, aiming for inclusive design, and pauses new level-surface schemes in high areas, but not residential ...Missing: evidence | Show results with:evidence