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tod-design

Designs transit-oriented developments using ITDP TOD Standard v3.0, global best practices, and density-distance gradients for station-area planning and walk catchments.

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Skill

tod-design

From urban-design-skills

Designs transit-oriented developments using ITDP TOD Standard v3.0, global best practices, and density-distance gradients for station-area planning and walk catchments.

design

npx claudepluginhub amanbh997/urban-design-skills-claude

Tool Access

This skill uses the workspace's default tool permissions.

Preview

This skill provides a complete framework for designing transit-oriented

Supporting Assets

references/itdp-standard.mdreferences/tod-typologies.md

SKILL.md

Transit-Oriented Development (TOD) Design Skill

This skill provides a complete framework for designing transit-oriented developments based on the ITDP TOD Standard v3.0, global best practices from cities like Tokyo, Hong Kong, Copenhagen, Curitiba, and Singapore, and density-distance gradient principles derived from decades of empirical research. It covers the full workflow from transit mode classification through station area planning, density calibration, use mix programming, parking management, and first-last mile connectivity design.

1. TOD Typology Selector

Use the following matrix to determine the baseline design parameters for any TOD project. Start by identifying the transit mode, then adjust using the context modifiers below the table.

Primary Classification by Transit Mode

Transit Mode	Walk Catchment	Min Density	Typical FAR	Height Range	Character
Metro / Heavy Rail	800m	100 DU/ha	3.0 - 10.0	6 - 40+ stories	Urban center, regional destination, highest intensity mixed-use
Light Rail / Tram	600m	60 DU/ha	2.0 - 5.0	4 - 12 stories	Urban neighborhood, linear corridor with medium-intensity nodes
BRT (Bus Rapid Transit)	500m	50 DU/ha	1.5 - 4.0	3 - 8 stories	Boulevard district, corridor-based development
Bus (frequent, <10 min headway)	400m	30 DU/ha	1.0 - 2.5	2 - 5 stories	Neighborhood center, incremental densification
Commuter Rail	800m	40 DU/ha	1.5 - 4.0	3 - 8 stories	Town center, park-and-ride transition to walkable core
Ferry Terminal	400m	50 DU/ha	2.0 - 5.0	3 - 8 stories	Waterfront district, tourism + residential + commercial

Context Modifiers

Apply these after selecting the primary transit mode to fine-tune parameters:

Context	Density Modifier	FAR Modifier	Notes
CBD / Central City	+50%	+2.0 to +5.0	Highest intensity justified by regional accessibility
Interchange Station (2+ lines)	+30%	+1.5 to +3.0	Multi-modal hub attracts higher ridership and demand
Terminus / End-of-Line	-20%	-0.5 to -1.0	Lower accessibility; park-and-ride may be appropriate
Suburban / Greenfield	-30%	-0.5 to -1.5	Lower existing demand; phase density over time
Historic / Heritage Area	-20%	-1.0 to -2.0	Height and massing constraints; character preservation
University / Hospital Anchor	+20%	+0.5 to +1.5	Institutional trip generators increase demand
Waterfront / Park Edge	No change	No change	Adjust massing for view corridors and public access

Walk Catchment Adjustments

The standard walk catchments above assume flat terrain and a connected street grid. Adjust as follows:

Hilly terrain (>5% average slope): reduce catchment by 20%
Poor street connectivity (cul-de-sac pattern): reduce catchment by 25%
Barriers (highway, river without crossing, rail line): truncate catchment at barrier
Excellent pedestrian environment (wide sidewalks, shade, weather protection): increase catchment by 15%
Covered or air-conditioned connections (Hong Kong, Singapore model): increase catchment by 25%

2. ITDP TOD Standard -- 8 Principles

The Institute for Transportation and Development Policy (ITDP) TOD Standard v3.0 provides an internationally recognized framework for evaluating and designing transit-oriented developments. The standard scores developments on a 0-100 scale across 8 principles. Use these principles as both a design checklist and a scoring rubric.

Scoring Thresholds

Award Level	Minimum Score	Interpretation
Gold TOD Standard	85 or above	World-class TOD; exemplary in all dimensions
Silver TOD Standard	70 - 84	High-quality TOD; strong performance with minor gaps
Bronze TOD Standard	55 - 69	Good TOD; meets core criteria but has improvement areas
Below Bronze	Below 55	Does not qualify as TOD; significant redesign needed

Principle 1: WALK (0-15 points)

Goal: Create a safe, complete, and comfortable pedestrian environment that makes walking the most attractive mode for short trips.

Scoring Criteria:

Pedestrian network is complete with no gaps or dead ends (0-3 pts)
Block perimeters are less than 250m for at least 90% of blocks (0-3 pts)
Pedestrian crossings are safe, frequent, and accessible at every intersection (0-3 pts)
Sidewalks are wide (minimum 2.0m clear), well-maintained, and ADA/universal-access compliant (0-3 pts)
Pedestrian environment is comfortable: shade, weather protection, lighting, active frontages (0-3 pts)

Design Implications:

Maximum block size: 120m x 120m (perimeter 480m), ideal 80m x 80m (perimeter 320m)
Mid-block pedestrian passages for blocks exceeding 150m in any dimension
Continuous sidewalks on both sides of every street, minimum 2.0m clear width
Pedestrian crossings at all intersections, maximum 80m spacing on arterials
Ground-floor transparency: minimum 60% glazing on commercial frontages
Street trees for shade at 8-10m spacing, continuous canopy coverage target 40%+
Pedestrian-scale lighting (4-6m poles, 3000K warm white, minimum 10 lux)

Principle 2: CYCLE (0-5 points)

Goal: Provide safe, connected cycling infrastructure and end-of-trip facilities that make cycling viable for trips up to 5 km.

Scoring Criteria:

Connected cycling network within the TOD area, linking to station (0-2 pts)
Adequate bicycle parking at station and destinations (0-2 pts)
Bike-share system with station within 300m of transit stop (0-1 pt)

Design Implications:

Protected bike lanes (physically separated) on all collector and arterial streets
Bicycle parking ratios: 1 space per 4 residents, 1 per 10 employees, 1 per 20 retail visitors
Secure, covered long-term bicycle parking at transit station (minimum 50 spaces for metro)
Short-term bicycle parking (inverted-U racks) at every building entrance and station exit
Bike-share station within 300m of transit stop, minimum 15 docks
End-of-trip facilities in commercial buildings: showers, lockers, maintenance stations

Principle 3: CONNECT (0-15 points)

Goal: Ensure a highly connected street and path network that provides direct, multiple routes between any two points.

Scoring Criteria:

Intersection density is greater than 100 intersections per km2 (0-5 pts)
Small blocks: at least 80% of blocks have perimeter less than 400m (0-4 pts)
Direct routes: pedestrian route directness ratio <1.3 (actual distance / straight-line distance) (0-3 pts)
Connectivity index: ratio of links to nodes in the street network >1.4 (0-3 pts)

Design Implications:

Street grid or modified grid preferred over dendritic (cul-de-sac) patterns
Intersection density target: 120-160 per km2 (equivalent to 80-90m block spacing)
Eliminate dead-end streets; provide through-connections for pedestrians and cyclists
Where superblocks exist, penetrate them with pedestrian/cycle passages
Align major pedestrian routes directly toward station entrances
Provide at least 3 distinct pedestrian routes from any point in the catchment to the station

Principle 4: TRANSIT (0-5 points)

Goal: Ensure high-quality, frequent transit service that is easily accessible from all parts of the development.

Scoring Criteria:

Walk distance from any point in the development to a transit stop is less than 500m (0-2 pts)
Peak headway is less than 10 minutes (0-2 pts)
Transit stops have quality amenities: shelter, seating, real-time information, lighting (0-1 pt)

Design Implications:

Locate development density within 500m network distance of station entrance
Advocate for service frequency of 5-minute peak headway for metro, 7-minute for LRT/BRT
Design transit stops with: weather protection (roof minimum 3m x 6m), seating (minimum 4 seats), real-time arrival display, lighting (minimum 50 lux under shelter), accessible boarding platform
Integrate bus stops with main station for seamless transfers (maximum 200m walk between modes)
Provide clear, intuitive wayfinding from development to transit (signage visible from 200m+)

Principle 5: MIX (0-15 points)

Goal: Create a diverse mix of complementary land uses that supports walkable daily life and reduces the need for car trips.

Scoring Criteria:

Complementary uses present: residential + commercial + civic within 500m (0-5 pts)
Housing type diversity: at least 3 housing types (studio, 1-bed, 2-bed, 3-bed, townhouse) (0-3 pts)
Affordable housing: at least 20% of units affordable to households at 60% AMI (0-4 pts)
Income diversity: range of unit sizes and price points serving multiple income brackets (0-3 pts)

Design Implications:

Target use mix: 40-60% residential, 20-30% commercial/office, 10-15% retail/F&B, 5-10% civic/institutional
Ground floors along main streets: 100% active uses (retail, restaurants, services, community)
Upper floors: flexible for residential, office, or hotel depending on market
Affordable housing distributed throughout the development, not concentrated in one building
Community facilities within the TOD: daycare, health clinic, library branch, community room
Avoid single-use zones; every block should contain at least 2 distinct use categories
Live-work units and flexible ground-floor spaces to support small businesses

Principle 6: DENSIFY (0-15 points)

Goal: Achieve residential and employment densities that support high-frequency transit and create vibrant, walkable neighborhoods.

Scoring Criteria:

Residential density exceeds 15,000 people per km2 (0-5 pts)
Non-residential density: significant employment and visitor attraction (0-5 pts)
Combined density supports transit ridership targets (0-5 pts)

Design Implications:

Minimum residential density: 100 DU/ha (net) for metro TOD, 50 DU/ha for BRT
Employment density target: 200+ jobs per hectare within 400m of station
Density peaks at the station and graduates outward (see Section 3 below)
Use FAR bonuses and height incentives to concentrate density near station
Minimum ground-floor commercial density: 0.5 FAR within 200m of station
Phase development to build highest-density parcels first (within 400m of station)

Principle 7: COMPACT (0-10 points)

Goal: Ensure development is contiguous with the existing urban fabric, avoiding leapfrog development and sprawl.

Scoring Criteria:

Development is contiguous with existing urbanized area (0-4 pts)
No significant gaps or vacant parcels between the development and existing fabric (0-3 pts)
Development fills in underutilized land before expanding outward (0-3 pts)

Design Implications:

Prioritize infill and brownfield sites over greenfield
Stitch new development into existing street grid; extend existing streets into the site
Match building setbacks and street walls to surrounding context at edges
Fill gaps in the urban fabric: parking lots, vacant lots, single-story commercial in transit zone
Development phasing should radiate outward from station, not leapfrog to distant parcels
Minimum lot coverage: 60% within 200m of station, 40% within 400-800m

Principle 8: SHIFT (0-20 points)

Goal: Reduce automobile dependence through parking management, traffic calming, and car-free zones.

Scoring Criteria:

Parking supply is limited: maximum 0.5 spaces per residential unit within 400m (0-5 pts)
Off-street parking is not visible from the street (screened or underground) (0-3 pts)
Traffic calming measures on all local streets within 400m of station (0-4 pts)
Car-free or car-lite zone within 200m of station (0-4 pts)
TDM (Transportation Demand Management) program in place (0-4 pts)

Design Implications:

Maximum parking: 0.3-0.5 spaces per residential unit within 400m of station
Parking maximum, not minimum: do not require parking, cap it
All parking structures wrapped with active uses on street-facing facades
No surface parking lots within 400m of station (exception: temporary during phasing)
Car-free zone: station plaza and at least 2 adjacent blocks (minimum 200m radius)
Traffic calming on all streets: 30 km/h maximum within 400m, 20 km/h within 200m
Unbundle parking from housing units (sell/rent separately)
Car-share spaces: 1 per 20 residential units (each car-share vehicle replaces 8-13 private cars)

3. Density-Distance Gradient

The fundamental organizing principle of TOD is the density gradient: highest intensity at the station, decreasing with distance. This gradient responds to land value economics, walkability thresholds, and transit ridership optimization.

Gradient Zones

Zone A: Station Core (0-200m from station entrance)

FAR: 5.0 - 10.0 (metro), 3.0 - 5.0 (LRT/BRT)
Height: 8 - 40+ stories (metro), 6 - 12 stories (LRT/BRT)
Use: mixed-use dominant -- commercial ground floors (retail, F&B, services), office/hotel middle floors, residential upper floors
Character: station plaza, civic space, highest pedestrian activity, car-free zone
Ground floor: 100% active frontage, minimum 4.5m floor-to-floor height, 60%+ transparency
Parking: zero on-site surface parking, underground only at maximum 0.3 spaces/unit
Public realm: station plaza (minimum 0.25 ha), wide sidewalks (4.5m+), street trees, public art

Zone B: Urban Core (200-400m)

FAR: 3.0 - 5.0 (metro), 2.0 - 3.5 (LRT/BRT)
Height: 6 - 12 stories (metro), 4 - 8 stories (LRT/BRT)
Use: mixed residential and commercial, live-work units, neighborhood retail corridors
Character: urban neighborhood, active streets, mixed building types
Ground floor: 70%+ active frontage on main streets, residential entries on side streets
Parking: maximum 0.5 spaces/unit, structured or underground, wrapped with active uses
Public realm: neighborhood park (minimum 0.5 ha), sidewalks 3.0m+, protected bike lanes

Zone C: Transition (400-600m)

FAR: 1.5 - 3.0 (metro), 1.0 - 2.5 (LRT/BRT)
Height: 4 - 6 stories (metro), 3 - 5 stories (LRT/BRT)
Use: predominantly residential with neighborhood retail at key intersections
Character: quieter residential streets, townhouses and mid-rise apartments, schools, community facilities
Ground floor: residential entries with setback gardens or stoops, corner retail at intersections
Parking: maximum 0.7 spaces/unit, on-street + small structured lots
Public realm: tree-lined residential streets, pocket parks, playgrounds, community gardens

Zone D: Edge (600-800m)

FAR: 0.8 - 1.5 (metro), 0.5 - 1.0 (LRT/BRT)
Height: 3 - 4 stories (metro), 2 - 3 stories (LRT/BRT)
Use: residential with limited neighborhood services
Character: low-rise residential, townhouses, row houses, small apartment buildings
Ground floor: residential with front gardens or courtyards
Parking: maximum 1.0 space/unit, on-street + private garages
Public realm: residential streets with traffic calming, green corridors connecting to station

Worked Example: Metro Station TOD Program Calculation

Assumptions: Metro station, urban context, 800m catchment, circular area

Total catchment area = pi x 800^2 = 2,010,619 m2 = 201 ha
Less roads and infrastructure (25%): 201 x 0.75 = 151 ha net developable
Less parks and open space (15%): 151 x 0.85 = 128 ha net buildable

Zone A (0-200m):   pi x 200^2 = 12.6 ha gross -> 8.0 ha net -> FAR 6.0 -> 480,000 m2 GFA
Zone B (200-400m): pi x (400^2 - 200^2) = 37.7 ha gross -> 24.0 ha net -> FAR 3.5 -> 840,000 m2 GFA
Zone C (400-600m): pi x (600^2 - 400^2) = 62.8 ha gross -> 40.0 ha net -> FAR 2.0 -> 800,000 m2 GFA
Zone D (600-800m): pi x (800^2 - 600^2) = 87.9 ha gross -> 56.0 ha net -> FAR 1.0 -> 560,000 m2 GFA

TOTAL GFA: 2,680,000 m2

Program split (typical metro TOD):
  Residential (55%):  1,474,000 m2 -> at 80 m2/unit = 18,425 units -> at 2.5 persons/unit = 46,000 people
  Office (20%):         536,000 m2 -> at 15 m2/employee = 35,700 jobs
  Retail (10%):         268,000 m2
  Civic/Institutional (10%): 268,000 m2
  Hotel (5%):           134,000 m2 -> at 35 m2/key = 3,800 keys

Residential density: 46,000 people / 201 ha = 22,900 people/km2 (exceeds ITDP 15,000 threshold)
Combined density:    46,000 residents + 35,700 workers = 81,700 / 201 ha = 40,600 people/km2

4. First-Last Mile Design

The quality of first-last mile connections determines whether people actually walk or cycle to the station. A station with poor last-mile connectivity will underperform its ridership potential by 30-50%.

Pedestrian Network Quality

Continuous sidewalks: both sides of every street within the catchment, minimum 2.0m clear
Direct routes: pedestrian desire lines should be honored with direct paths to station; route directness ratio less than 1.3
Level of service: smooth, even surfaces; ADA-compliant curb ramps at every crossing; tactile paving at crossings and platform edges
Shade and weather protection: continuous shade canopy (trees or structures) along primary pedestrian routes to station; covered walkways within 200m of station entrance in hot or wet climates
Lighting: minimum 10 lux along pedestrian routes, 30 lux at crossings and station approaches, CPTED (Crime Prevention Through Environmental Design) principles
Active frontages: ground-floor retail and services along main walking routes to create safe, interesting, surveilled streets

Cycling Connections

Protected bike lanes: physically separated cycle tracks on all routes leading to station from catchment edge
Wayfinding: cycling wayfinding signage from 1 km out, with distance and time-to-station information
Intersection treatment: protected intersections or bike signals at all crossings with arterial roads
Gradient management: maximum 5% gradient on cycling routes; provide alternative routes around steep hills
Winter maintenance: snow clearing on cycling routes within 4 hours of snowfall (cold climates)

Bicycle Parking at Station

Quantity: minimum 50 spaces for metro, 30 for LRT, 20 for BRT; scale upward based on ridership
Types: mix of short-term (inverted-U racks, 2-hour) and long-term (secure, covered, card-access, 24-hour)
Location: visible from station entrance, within 30m of entrance, well-lit (50 lux minimum)
Design: covered to protect from rain, spaced at 0.75m intervals, accommodate cargo bikes and e-bikes
Charging: e-bike charging at 10% of spaces, standard power outlets

Feeder Transit

Bus routes: local bus routes should terminate at or pass through the station, with stops within 100m of main entrance
Transfer design: weather-protected transfer areas, coordinated schedules, real-time information displays
Frequency: feeder buses every 10-15 minutes during peak, 20-30 minutes off-peak
Route design: feeder routes should cover the catchment area beyond comfortable walking distance (800m+)

Kiss-and-Ride and Rideshare

Location: short-term drop-off/pick-up zone within 100m of station entrance, separated from bus and pedestrian areas
Capacity: 5-10 spaces for kiss-and-ride, 3-5 spaces for taxi/rideshare
Design: 60-second maximum dwell time, no waiting/parking allowed, ANPR enforcement
Rideshare integration: designated pick-up zone with shelter, real-time app coordination, clear signage

Wayfinding System

Hierarchy: regional wayfinding (from 2 km: highway signs), district wayfinding (from 500m: totem signs), local wayfinding (within 200m: finger posts and ground markings)
Information: walking time to station, cycling time, next departure time, accessible routes
Consistency: unified design language, multilingual where appropriate, tactile and audible elements for universal access
Digital integration: QR codes linking to real-time transit information, augmented reality wayfinding in station areas

5. Station Area Design

The station itself is the heart of the TOD. Its design determines how effectively the surrounding development connects to transit and how the public realm functions as a civic space.

Station Plaza Design

Minimum size: 0.25 ha (2,500 m2) for metro station, 0.10 ha for LRT/BRT
Location: directly at the primary station entrance, visible from main approach streets
Proportions: width at least 1.5x the height of surrounding buildings for solar access and spatial comfort
Level change: minimize level changes between plaza and station entrance; maximum one step or ramp
Programming: flexible space for daily use (seating, planting, retail kiosks) and events (markets, performances, gatherings)
Seating: minimum 1 seat per 30 m2 of plaza area, mix of primary (benches with backs) and secondary (walls, steps, ledges)
Weather protection: covered areas at minimum 20% of plaza; canopy, arcade, or building overhang
Retail kiosks: 2-5 kiosks or pop-up retail structures to activate the plaza and provide convenience services (coffee, news, flowers, bike repair)
Materials: high-quality, durable paving (natural stone, high-grade concrete); distinct from surrounding sidewalks to signal civic importance
Water management: permeable paving or integrated drainage; consider water feature (fountain, stream) for microclimate and placemaking

Interchange Design (Multi-Modal Stations)

Bus-rail integration: bus stops within 100m of rail platform, preferably same level or one level change with escalators/elevators
Cross-platform transfer: where two rail lines intersect, same-platform transfer is ideal (arriving passengers step across platform to connecting train)
Walking distances: maximum 300m between any two modes at an interchange; target under 200m
Wayfinding: real-time information for all modes at every decision point; overhead signage visible from 30m
Capacity: size interchange facilities for 150% of projected peak demand to handle surges and events
Retail integration: convenience retail in transfer corridors (not obstructing flow) to enhance the transfer experience

Air Rights and Real Estate Integration

Building over stations: develop air rights above station structures for maximum land value capture
Structural coordination: design station structure from inception to support future air-rights development (column grid aligned with building module, structural capacity for 20+ stories)
Entrance integration: building lobbies and retail concourses should merge seamlessly with station entrances
Revenue model: ground lease or air-rights sale to fund station construction and ongoing maintenance
Precedents: Hong Kong MTR model (rail + property development funds 40% of operating costs), Tokyo station area developments, Hudson Yards NYC

Underground Connections

Climate justification: in cities with extreme heat, cold, or rain, underground pedestrian networks extending 200-400m from station
Commercial activation: underground passages lined with retail to maintain activity and safety
Daylight: skylight wells or light scoops to bring natural light into underground passages every 50-80m
Accessibility: elevators and escalators at every level change; tactile wayfinding throughout
Ventilation: mechanical ventilation to maintain comfortable temperature and air quality; target 25-27C in tropical climates, 18-22C in temperate

6. Parking Management

Parking policy is the single most powerful lever for making TOD work. Excessive parking undermines transit ridership, wastes land, increases costs, and generates traffic. The following parking management framework is calibrated for TOD contexts.

Maximum Parking Ratios by Zone

Use	Zone A (0-200m)	Zone B (200-400m)	Zone C (400-600m)	Zone D (600-800m)
Residential (per unit)	0.0 - 0.3	0.3 - 0.5	0.5 - 0.7	0.7 - 1.0
Office (per 100 m2 GFA)	0.5 - 1.0	1.0 - 1.5	1.5 - 2.0	2.0 - 3.0
Retail (per 100 m2 GFA)	0.5 - 1.0	1.0 - 2.0	2.0 - 3.0	3.0 - 4.0
Hotel (per room)	0.1 - 0.2	0.2 - 0.3	0.3 - 0.5	0.5 - 0.7

These are maximums, not minimums. Zero parking minimums should be the baseline policy within the entire TOD catchment.

Parking Design Requirements

No surface parking within 400m of station (Zone A and B)
Structured parking must be wrapped with active uses on all street-facing facades
Underground parking preferred in Zone A; structured in Zone B
Maximum parking structure frontage: 15m of blank facade (service entrance only); remainder must be active use
Parking access: from secondary streets or alleys, never from the primary pedestrian street
EV charging: minimum 20% of spaces with Level 2 charging, conduit to 100% of spaces

Parking Pricing and Management

Unbundling: residential parking sold or rented separately from housing units (typical cost: $30,000-$60,000 per structured space to build)
Pricing: market-rate pricing for all parking; never provide free parking in a TOD
Shared parking: office and residential parking shared where peak demands are complementary (office peaks weekdays 9-17, residential peaks evenings and weekends)
Shared parking reduction: typically 20-30% fewer total spaces needed versus single-use parking
Car-share: dedicated car-share spaces at 1 per 20 residential units; each car-share vehicle replaces 8-13 private vehicles
Dynamic pricing: implement demand-responsive pricing for on-street parking (target 85% occupancy, per Donald Shoup methodology)

Park-and-Ride

Terminus stations only: park-and-ride is appropriate only at end-of-line or suburban stations where feeder transit is insufficient
Never within the walkable core: park-and-ride should be at the periphery of the catchment (600-800m from station) or outside it entirely
Structured, not surface: surface park-and-ride lots are land-use failures; structure parking and develop adjacent parcels
Phase out over time: as surrounding development densifies and feeder transit improves, convert park-and-ride to development

7. Output Template

When producing a TOD design, deliver the following specification package:

TOD DESIGN SPECIFICATION
========================

PROJECT: [Name]
LOCATION: [City, Address / Coordinates]
TRANSIT MODE: [Metro / LRT / BRT / Bus / Commuter Rail / Ferry]
STATION TYPE: [New / Existing / Planned]
CONTEXT: [CBD / Urban / Suburban / Greenfield / Infill]

CATCHMENT PARAMETERS:
  Walk catchment radius: [m]
  Catchment area (gross): [ha]
  Net developable area: [ha]
  Road/infrastructure deduction: [%]
  Open space allocation: [%]

DENSITY-DISTANCE GRADIENT:
+--------+--------+-------+--------+---------+----------+
| Zone   | Radius | Area  | FAR    | GFA     | Height   |
+--------+--------+-------+--------+---------+----------+
| A Core | 0-200m | XX ha | X.X    | XXX m2  | X-X st   |
| B Urban| 200-   | XX ha | X.X    | XXX m2  | X-X st   |
|        | 400m   |       |        |         |          |
| C Trans| 400-   | XX ha | X.X    | XXX m2  | X-X st   |
|        | 600m   |       |        |         |          |
| D Edge | 600-   | XX ha | X.X    | XXX m2  | X-X st   |
|        | 800m   |       |        |         |          |
+--------+--------+-------+--------+---------+----------+
| TOTAL  |        | XX ha |        | XXX m2  |          |
+--------+--------+-------+--------+---------+----------+

PROGRAM MIX:
  Residential:      XXX,XXX m2 (XX%) -> XX,XXX units -> XX,XXX residents
  Office:           XXX,XXX m2 (XX%) -> XX,XXX jobs
  Retail / F&B:     XXX,XXX m2 (XX%)
  Civic / Community:XXX,XXX m2 (XX%)
  Hotel:            XXX,XXX m2 (XX%) -> X,XXX keys
  TOTAL GFA:        XXX,XXX m2

PARKING:
  Residential parking ratio: X.X spaces/unit
  Total residential spaces: X,XXX
  Commercial parking ratio: X.X spaces/100 m2
  Total commercial spaces: X,XXX
  Car-share spaces: XXX
  Bicycle parking spaces: X,XXX

ITDP TOD STANDARD SCORECARD:
  1. WALK:    XX / 15
  2. CYCLE:   XX / 5
  3. CONNECT: XX / 15
  4. TRANSIT: XX / 5
  5. MIX:     XX / 15
  6. DENSIFY: XX / 15
  7. COMPACT: XX / 10
  8. SHIFT:   XX / 20
  -------------------
  TOTAL:      XX / 100
  AWARD:      [Gold / Silver / Bronze / None]

STATION AREA:
  Station plaza area: X,XXX m2
  Interchange modes: [list]
  Bicycle parking at station: XXX spaces
  Kiss-and-ride spaces: XX
  Bus bays: XX

FIRST-LAST MILE:
  Pedestrian network completeness: XX%
  Protected bike lane coverage: XX%
  Feeder bus routes: XX
  Wayfinding system: [yes/no]

PHASING:
  Phase 1 (0-3 years): Zone A + Station infrastructure
  Phase 2 (3-7 years): Zone B + Public realm
  Phase 3 (7-12 years): Zone C + Community facilities
  Phase 4 (12-20 years): Zone D + Network completion

8. Reference Links

Primary Standards and Guidelines

ITDP TOD Standard v3.0: https://www.itdp.org/2017/06/23/tod-standard/
ITDP Our Cities Ourselves -- 10 Principles: https://www.itdp.org/
TCRP Report 102 -- Transit-Oriented Development in the United States: https://www.trb.org/
FTA TOD Policy and Research: https://www.transit.dot.gov/TOD
ULI Ten Principles for Successful Development Around Transit: https://uli.org/
Reconnecting America TOD Resources: http://www.reconnectingamerica.org/

TOD Typology and Density References

Detailed TOD typology specifications are documented in:

references/tod-typologies.md

This reference provides 8 complete TOD typology profiles with design parameters, density targets, use mix, street types, parking strategy, and global precedents.

ITDP Standard Detailed Scoring

Complete ITDP TOD Standard v3.0 scoring criteria, calculation methodology, and design strategies are documented in:

references/itdp-standard.md

Supplementary Resources

Cervero, R. -- The Transit Metropolis: A Global Inquiry (Island Press)
Calthorpe, P. -- The Next American Metropolis (Princeton Architectural Press)
Dittmar, H. and Ohland, G. -- The New Transit Town (Island Press)
Hong Kong MTR Property Development Model: https://www.mtr.com.hk/
Singapore URA Master Plan and TOD Guidelines: https://www.ura.gov.sg/
Tokyo Station Area Development (Marunouchi): reference for air-rights TOD
Curitiba BRT-Oriented Development: reference for BRT TOD corridor
Copenhagen Finger Plan: reference for regional TOD structure
Portland MAX TOD Corridor: reference for LRT TOD in North American context
C40 Cities TOD Resources: https://www.c40.org/

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Transit-Oriented Development (TOD) Design Skill

1. TOD Typology Selector

Use the following matrix to determine the baseline design parameters for any TOD project. Start by identifying the transit mode, then adjust using the context modifiers below the table.

Primary Classification by Transit Mode

Transit Mode	Walk Catchment	Min Density	Typical FAR	Height Range	Character
Metro / Heavy Rail	800m	100 DU/ha	3.0 - 10.0	6 - 40+ stories	Urban center, regional destination, highest intensity mixed-use
Light Rail / Tram	600m	60 DU/ha	2.0 - 5.0	4 - 12 stories	Urban neighborhood, linear corridor with medium-intensity nodes
BRT (Bus Rapid Transit)	500m	50 DU/ha	1.5 - 4.0	3 - 8 stories	Boulevard district, corridor-based development
Bus (frequent, <10 min headway)	400m	30 DU/ha	1.0 - 2.5	2 - 5 stories	Neighborhood center, incremental densification
Commuter Rail	800m	40 DU/ha	1.5 - 4.0	3 - 8 stories	Town center, park-and-ride transition to walkable core
Ferry Terminal	400m	50 DU/ha	2.0 - 5.0	3 - 8 stories	Waterfront district, tourism + residential + commercial

Context Modifiers

Apply these after selecting the primary transit mode to fine-tune parameters:

Context	Density Modifier	FAR Modifier	Notes
CBD / Central City	+50%	+2.0 to +5.0	Highest intensity justified by regional accessibility
Interchange Station (2+ lines)	+30%	+1.5 to +3.0	Multi-modal hub attracts higher ridership and demand
Terminus / End-of-Line	-20%	-0.5 to -1.0	Lower accessibility; park-and-ride may be appropriate
Suburban / Greenfield	-30%	-0.5 to -1.5	Lower existing demand; phase density over time
Historic / Heritage Area	-20%	-1.0 to -2.0	Height and massing constraints; character preservation
University / Hospital Anchor	+20%	+0.5 to +1.5	Institutional trip generators increase demand
Waterfront / Park Edge	No change	No change	Adjust massing for view corridors and public access

Walk Catchment Adjustments

The standard walk catchments above assume flat terrain and a connected street grid. Adjust as follows:

Hilly terrain (>5% average slope): reduce catchment by 20%
Poor street connectivity (cul-de-sac pattern): reduce catchment by 25%
Barriers (highway, river without crossing, rail line): truncate catchment at barrier
Excellent pedestrian environment (wide sidewalks, shade, weather protection): increase catchment by 15%
Covered or air-conditioned connections (Hong Kong, Singapore model): increase catchment by 25%

2. ITDP TOD Standard -- 8 Principles

Scoring Thresholds

Award Level	Minimum Score	Interpretation
Gold TOD Standard	85 or above	World-class TOD; exemplary in all dimensions
Silver TOD Standard	70 - 84	High-quality TOD; strong performance with minor gaps
Bronze TOD Standard	55 - 69	Good TOD; meets core criteria but has improvement areas
Below Bronze	Below 55	Does not qualify as TOD; significant redesign needed

Principle 1: WALK (0-15 points)

Goal: Create a safe, complete, and comfortable pedestrian environment that makes walking the most attractive mode for short trips.

Scoring Criteria:

Pedestrian network is complete with no gaps or dead ends (0-3 pts)
Block perimeters are less than 250m for at least 90% of blocks (0-3 pts)
Pedestrian crossings are safe, frequent, and accessible at every intersection (0-3 pts)
Sidewalks are wide (minimum 2.0m clear), well-maintained, and ADA/universal-access compliant (0-3 pts)
Pedestrian environment is comfortable: shade, weather protection, lighting, active frontages (0-3 pts)

Design Implications:

Maximum block size: 120m x 120m (perimeter 480m), ideal 80m x 80m (perimeter 320m)
Mid-block pedestrian passages for blocks exceeding 150m in any dimension
Continuous sidewalks on both sides of every street, minimum 2.0m clear width
Pedestrian crossings at all intersections, maximum 80m spacing on arterials
Ground-floor transparency: minimum 60% glazing on commercial frontages
Street trees for shade at 8-10m spacing, continuous canopy coverage target 40%+
Pedestrian-scale lighting (4-6m poles, 3000K warm white, minimum 10 lux)

Principle 2: CYCLE (0-5 points)

Goal: Provide safe, connected cycling infrastructure and end-of-trip facilities that make cycling viable for trips up to 5 km.

Scoring Criteria:

Connected cycling network within the TOD area, linking to station (0-2 pts)
Adequate bicycle parking at station and destinations (0-2 pts)
Bike-share system with station within 300m of transit stop (0-1 pt)

Design Implications:

Protected bike lanes (physically separated) on all collector and arterial streets
Bicycle parking ratios: 1 space per 4 residents, 1 per 10 employees, 1 per 20 retail visitors
Secure, covered long-term bicycle parking at transit station (minimum 50 spaces for metro)
Short-term bicycle parking (inverted-U racks) at every building entrance and station exit
Bike-share station within 300m of transit stop, minimum 15 docks
End-of-trip facilities in commercial buildings: showers, lockers, maintenance stations

Principle 3: CONNECT (0-15 points)

Goal: Ensure a highly connected street and path network that provides direct, multiple routes between any two points.

Scoring Criteria:

Intersection density is greater than 100 intersections per km2 (0-5 pts)
Small blocks: at least 80% of blocks have perimeter less than 400m (0-4 pts)
Direct routes: pedestrian route directness ratio <1.3 (actual distance / straight-line distance) (0-3 pts)
Connectivity index: ratio of links to nodes in the street network >1.4 (0-3 pts)

Design Implications:

Street grid or modified grid preferred over dendritic (cul-de-sac) patterns
Intersection density target: 120-160 per km2 (equivalent to 80-90m block spacing)
Eliminate dead-end streets; provide through-connections for pedestrians and cyclists
Where superblocks exist, penetrate them with pedestrian/cycle passages
Align major pedestrian routes directly toward station entrances
Provide at least 3 distinct pedestrian routes from any point in the catchment to the station

Principle 4: TRANSIT (0-5 points)

Goal: Ensure high-quality, frequent transit service that is easily accessible from all parts of the development.

Scoring Criteria:

Walk distance from any point in the development to a transit stop is less than 500m (0-2 pts)
Peak headway is less than 10 minutes (0-2 pts)
Transit stops have quality amenities: shelter, seating, real-time information, lighting (0-1 pt)

Design Implications:

Locate development density within 500m network distance of station entrance
Advocate for service frequency of 5-minute peak headway for metro, 7-minute for LRT/BRT
Design transit stops with: weather protection (roof minimum 3m x 6m), seating (minimum 4 seats), real-time arrival display, lighting (minimum 50 lux under shelter), accessible boarding platform
Integrate bus stops with main station for seamless transfers (maximum 200m walk between modes)
Provide clear, intuitive wayfinding from development to transit (signage visible from 200m+)

Principle 5: MIX (0-15 points)

Goal: Create a diverse mix of complementary land uses that supports walkable daily life and reduces the need for car trips.

Scoring Criteria:

Complementary uses present: residential + commercial + civic within 500m (0-5 pts)
Housing type diversity: at least 3 housing types (studio, 1-bed, 2-bed, 3-bed, townhouse) (0-3 pts)
Affordable housing: at least 20% of units affordable to households at 60% AMI (0-4 pts)
Income diversity: range of unit sizes and price points serving multiple income brackets (0-3 pts)

Design Implications:

Target use mix: 40-60% residential, 20-30% commercial/office, 10-15% retail/F&B, 5-10% civic/institutional
Ground floors along main streets: 100% active uses (retail, restaurants, services, community)
Upper floors: flexible for residential, office, or hotel depending on market
Affordable housing distributed throughout the development, not concentrated in one building
Community facilities within the TOD: daycare, health clinic, library branch, community room
Avoid single-use zones; every block should contain at least 2 distinct use categories
Live-work units and flexible ground-floor spaces to support small businesses

Principle 6: DENSIFY (0-15 points)

Goal: Achieve residential and employment densities that support high-frequency transit and create vibrant, walkable neighborhoods.

Scoring Criteria:

Residential density exceeds 15,000 people per km2 (0-5 pts)
Non-residential density: significant employment and visitor attraction (0-5 pts)
Combined density supports transit ridership targets (0-5 pts)

Design Implications:

Minimum residential density: 100 DU/ha (net) for metro TOD, 50 DU/ha for BRT
Employment density target: 200+ jobs per hectare within 400m of station
Density peaks at the station and graduates outward (see Section 3 below)
Use FAR bonuses and height incentives to concentrate density near station
Minimum ground-floor commercial density: 0.5 FAR within 200m of station
Phase development to build highest-density parcels first (within 400m of station)

Principle 7: COMPACT (0-10 points)

Goal: Ensure development is contiguous with the existing urban fabric, avoiding leapfrog development and sprawl.

Scoring Criteria:

Development is contiguous with existing urbanized area (0-4 pts)
No significant gaps or vacant parcels between the development and existing fabric (0-3 pts)
Development fills in underutilized land before expanding outward (0-3 pts)

Design Implications:

Prioritize infill and brownfield sites over greenfield
Stitch new development into existing street grid; extend existing streets into the site
Match building setbacks and street walls to surrounding context at edges
Fill gaps in the urban fabric: parking lots, vacant lots, single-story commercial in transit zone
Development phasing should radiate outward from station, not leapfrog to distant parcels
Minimum lot coverage: 60% within 200m of station, 40% within 400-800m

Principle 8: SHIFT (0-20 points)

Goal: Reduce automobile dependence through parking management, traffic calming, and car-free zones.

Scoring Criteria:

Parking supply is limited: maximum 0.5 spaces per residential unit within 400m (0-5 pts)
Off-street parking is not visible from the street (screened or underground) (0-3 pts)
Traffic calming measures on all local streets within 400m of station (0-4 pts)
Car-free or car-lite zone within 200m of station (0-4 pts)
TDM (Transportation Demand Management) program in place (0-4 pts)

Design Implications:

Maximum parking: 0.3-0.5 spaces per residential unit within 400m of station
Parking maximum, not minimum: do not require parking, cap it
All parking structures wrapped with active uses on street-facing facades
No surface parking lots within 400m of station (exception: temporary during phasing)
Car-free zone: station plaza and at least 2 adjacent blocks (minimum 200m radius)
Traffic calming on all streets: 30 km/h maximum within 400m, 20 km/h within 200m
Unbundle parking from housing units (sell/rent separately)
Car-share spaces: 1 per 20 residential units (each car-share vehicle replaces 8-13 private cars)

3. Density-Distance Gradient

Gradient Zones

Zone A: Station Core (0-200m from station entrance)

FAR: 5.0 - 10.0 (metro), 3.0 - 5.0 (LRT/BRT)
Height: 8 - 40+ stories (metro), 6 - 12 stories (LRT/BRT)
Use: mixed-use dominant -- commercial ground floors (retail, F&B, services), office/hotel middle floors, residential upper floors
Character: station plaza, civic space, highest pedestrian activity, car-free zone
Ground floor: 100% active frontage, minimum 4.5m floor-to-floor height, 60%+ transparency
Parking: zero on-site surface parking, underground only at maximum 0.3 spaces/unit
Public realm: station plaza (minimum 0.25 ha), wide sidewalks (4.5m+), street trees, public art

Zone B: Urban Core (200-400m)

FAR: 3.0 - 5.0 (metro), 2.0 - 3.5 (LRT/BRT)
Height: 6 - 12 stories (metro), 4 - 8 stories (LRT/BRT)
Use: mixed residential and commercial, live-work units, neighborhood retail corridors
Character: urban neighborhood, active streets, mixed building types
Ground floor: 70%+ active frontage on main streets, residential entries on side streets
Parking: maximum 0.5 spaces/unit, structured or underground, wrapped with active uses
Public realm: neighborhood park (minimum 0.5 ha), sidewalks 3.0m+, protected bike lanes

Zone C: Transition (400-600m)

FAR: 1.5 - 3.0 (metro), 1.0 - 2.5 (LRT/BRT)
Height: 4 - 6 stories (metro), 3 - 5 stories (LRT/BRT)
Use: predominantly residential with neighborhood retail at key intersections
Character: quieter residential streets, townhouses and mid-rise apartments, schools, community facilities
Ground floor: residential entries with setback gardens or stoops, corner retail at intersections
Parking: maximum 0.7 spaces/unit, on-street + small structured lots
Public realm: tree-lined residential streets, pocket parks, playgrounds, community gardens

Zone D: Edge (600-800m)

FAR: 0.8 - 1.5 (metro), 0.5 - 1.0 (LRT/BRT)
Height: 3 - 4 stories (metro), 2 - 3 stories (LRT/BRT)
Use: residential with limited neighborhood services
Character: low-rise residential, townhouses, row houses, small apartment buildings
Ground floor: residential with front gardens or courtyards
Parking: maximum 1.0 space/unit, on-street + private garages
Public realm: residential streets with traffic calming, green corridors connecting to station

Worked Example: Metro Station TOD Program Calculation

Assumptions: Metro station, urban context, 800m catchment, circular area

Total catchment area = pi x 800^2 = 2,010,619 m2 = 201 ha
Less roads and infrastructure (25%): 201 x 0.75 = 151 ha net developable
Less parks and open space (15%): 151 x 0.85 = 128 ha net buildable

Zone A (0-200m):   pi x 200^2 = 12.6 ha gross -> 8.0 ha net -> FAR 6.0 -> 480,000 m2 GFA
Zone B (200-400m): pi x (400^2 - 200^2) = 37.7 ha gross -> 24.0 ha net -> FAR 3.5 -> 840,000 m2 GFA
Zone C (400-600m): pi x (600^2 - 400^2) = 62.8 ha gross -> 40.0 ha net -> FAR 2.0 -> 800,000 m2 GFA
Zone D (600-800m): pi x (800^2 - 600^2) = 87.9 ha gross -> 56.0 ha net -> FAR 1.0 -> 560,000 m2 GFA

TOTAL GFA: 2,680,000 m2

Program split (typical metro TOD):
  Residential (55%):  1,474,000 m2 -> at 80 m2/unit = 18,425 units -> at 2.5 persons/unit = 46,000 people
  Office (20%):         536,000 m2 -> at 15 m2/employee = 35,700 jobs
  Retail (10%):         268,000 m2
  Civic/Institutional (10%): 268,000 m2
  Hotel (5%):           134,000 m2 -> at 35 m2/key = 3,800 keys

Residential density: 46,000 people / 201 ha = 22,900 people/km2 (exceeds ITDP 15,000 threshold)
Combined density:    46,000 residents + 35,700 workers = 81,700 / 201 ha = 40,600 people/km2

4. First-Last Mile Design

Pedestrian Network Quality

Continuous sidewalks: both sides of every street within the catchment, minimum 2.0m clear
Direct routes: pedestrian desire lines should be honored with direct paths to station; route directness ratio less than 1.3
Level of service: smooth, even surfaces; ADA-compliant curb ramps at every crossing; tactile paving at crossings and platform edges
Shade and weather protection: continuous shade canopy (trees or structures) along primary pedestrian routes to station; covered walkways within 200m of station entrance in hot or wet climates
Lighting: minimum 10 lux along pedestrian routes, 30 lux at crossings and station approaches, CPTED (Crime Prevention Through Environmental Design) principles
Active frontages: ground-floor retail and services along main walking routes to create safe, interesting, surveilled streets

Cycling Connections

Protected bike lanes: physically separated cycle tracks on all routes leading to station from catchment edge
Wayfinding: cycling wayfinding signage from 1 km out, with distance and time-to-station information
Intersection treatment: protected intersections or bike signals at all crossings with arterial roads
Gradient management: maximum 5% gradient on cycling routes; provide alternative routes around steep hills
Winter maintenance: snow clearing on cycling routes within 4 hours of snowfall (cold climates)

Bicycle Parking at Station

Quantity: minimum 50 spaces for metro, 30 for LRT, 20 for BRT; scale upward based on ridership
Types: mix of short-term (inverted-U racks, 2-hour) and long-term (secure, covered, card-access, 24-hour)
Location: visible from station entrance, within 30m of entrance, well-lit (50 lux minimum)
Design: covered to protect from rain, spaced at 0.75m intervals, accommodate cargo bikes and e-bikes
Charging: e-bike charging at 10% of spaces, standard power outlets

Feeder Transit

Bus routes: local bus routes should terminate at or pass through the station, with stops within 100m of main entrance
Transfer design: weather-protected transfer areas, coordinated schedules, real-time information displays
Frequency: feeder buses every 10-15 minutes during peak, 20-30 minutes off-peak
Route design: feeder routes should cover the catchment area beyond comfortable walking distance (800m+)

Kiss-and-Ride and Rideshare

Location: short-term drop-off/pick-up zone within 100m of station entrance, separated from bus and pedestrian areas
Capacity: 5-10 spaces for kiss-and-ride, 3-5 spaces for taxi/rideshare
Design: 60-second maximum dwell time, no waiting/parking allowed, ANPR enforcement
Rideshare integration: designated pick-up zone with shelter, real-time app coordination, clear signage

Wayfinding System

Hierarchy: regional wayfinding (from 2 km: highway signs), district wayfinding (from 500m: totem signs), local wayfinding (within 200m: finger posts and ground markings)
Information: walking time to station, cycling time, next departure time, accessible routes
Consistency: unified design language, multilingual where appropriate, tactile and audible elements for universal access
Digital integration: QR codes linking to real-time transit information, augmented reality wayfinding in station areas

5. Station Area Design

The station itself is the heart of the TOD. Its design determines how effectively the surrounding development connects to transit and how the public realm functions as a civic space.

Station Plaza Design

Minimum size: 0.25 ha (2,500 m2) for metro station, 0.10 ha for LRT/BRT
Location: directly at the primary station entrance, visible from main approach streets
Proportions: width at least 1.5x the height of surrounding buildings for solar access and spatial comfort
Level change: minimize level changes between plaza and station entrance; maximum one step or ramp
Programming: flexible space for daily use (seating, planting, retail kiosks) and events (markets, performances, gatherings)
Seating: minimum 1 seat per 30 m2 of plaza area, mix of primary (benches with backs) and secondary (walls, steps, ledges)
Weather protection: covered areas at minimum 20% of plaza; canopy, arcade, or building overhang
Retail kiosks: 2-5 kiosks or pop-up retail structures to activate the plaza and provide convenience services (coffee, news, flowers, bike repair)
Materials: high-quality, durable paving (natural stone, high-grade concrete); distinct from surrounding sidewalks to signal civic importance
Water management: permeable paving or integrated drainage; consider water feature (fountain, stream) for microclimate and placemaking

Interchange Design (Multi-Modal Stations)

Bus-rail integration: bus stops within 100m of rail platform, preferably same level or one level change with escalators/elevators
Cross-platform transfer: where two rail lines intersect, same-platform transfer is ideal (arriving passengers step across platform to connecting train)
Walking distances: maximum 300m between any two modes at an interchange; target under 200m
Wayfinding: real-time information for all modes at every decision point; overhead signage visible from 30m
Capacity: size interchange facilities for 150% of projected peak demand to handle surges and events
Retail integration: convenience retail in transfer corridors (not obstructing flow) to enhance the transfer experience

Air Rights and Real Estate Integration

Building over stations: develop air rights above station structures for maximum land value capture
Structural coordination: design station structure from inception to support future air-rights development (column grid aligned with building module, structural capacity for 20+ stories)
Entrance integration: building lobbies and retail concourses should merge seamlessly with station entrances
Revenue model: ground lease or air-rights sale to fund station construction and ongoing maintenance
Precedents: Hong Kong MTR model (rail + property development funds 40% of operating costs), Tokyo station area developments, Hudson Yards NYC

Underground Connections

Climate justification: in cities with extreme heat, cold, or rain, underground pedestrian networks extending 200-400m from station
Commercial activation: underground passages lined with retail to maintain activity and safety
Daylight: skylight wells or light scoops to bring natural light into underground passages every 50-80m
Accessibility: elevators and escalators at every level change; tactile wayfinding throughout
Ventilation: mechanical ventilation to maintain comfortable temperature and air quality; target 25-27C in tropical climates, 18-22C in temperate

6. Parking Management

Maximum Parking Ratios by Zone

Use	Zone A (0-200m)	Zone B (200-400m)	Zone C (400-600m)	Zone D (600-800m)
Residential (per unit)	0.0 - 0.3	0.3 - 0.5	0.5 - 0.7	0.7 - 1.0
Office (per 100 m2 GFA)	0.5 - 1.0	1.0 - 1.5	1.5 - 2.0	2.0 - 3.0
Retail (per 100 m2 GFA)	0.5 - 1.0	1.0 - 2.0	2.0 - 3.0	3.0 - 4.0
Hotel (per room)	0.1 - 0.2	0.2 - 0.3	0.3 - 0.5	0.5 - 0.7

These are maximums, not minimums. Zero parking minimums should be the baseline policy within the entire TOD catchment.

Parking Design Requirements

No surface parking within 400m of station (Zone A and B)
Structured parking must be wrapped with active uses on all street-facing facades
Underground parking preferred in Zone A; structured in Zone B
Maximum parking structure frontage: 15m of blank facade (service entrance only); remainder must be active use
Parking access: from secondary streets or alleys, never from the primary pedestrian street
EV charging: minimum 20% of spaces with Level 2 charging, conduit to 100% of spaces

Parking Pricing and Management

Unbundling: residential parking sold or rented separately from housing units (typical cost: $30,000-$60,000 per structured space to build)
Pricing: market-rate pricing for all parking; never provide free parking in a TOD
Shared parking: office and residential parking shared where peak demands are complementary (office peaks weekdays 9-17, residential peaks evenings and weekends)
Shared parking reduction: typically 20-30% fewer total spaces needed versus single-use parking
Car-share: dedicated car-share spaces at 1 per 20 residential units; each car-share vehicle replaces 8-13 private vehicles
Dynamic pricing: implement demand-responsive pricing for on-street parking (target 85% occupancy, per Donald Shoup methodology)

Park-and-Ride

Terminus stations only: park-and-ride is appropriate only at end-of-line or suburban stations where feeder transit is insufficient
Never within the walkable core: park-and-ride should be at the periphery of the catchment (600-800m from station) or outside it entirely
Structured, not surface: surface park-and-ride lots are land-use failures; structure parking and develop adjacent parcels
Phase out over time: as surrounding development densifies and feeder transit improves, convert park-and-ride to development

7. Output Template

When producing a TOD design, deliver the following specification package:

TOD DESIGN SPECIFICATION
========================

PROJECT: [Name]
LOCATION: [City, Address / Coordinates]
TRANSIT MODE: [Metro / LRT / BRT / Bus / Commuter Rail / Ferry]
STATION TYPE: [New / Existing / Planned]
CONTEXT: [CBD / Urban / Suburban / Greenfield / Infill]

CATCHMENT PARAMETERS:
  Walk catchment radius: [m]
  Catchment area (gross): [ha]
  Net developable area: [ha]
  Road/infrastructure deduction: [%]
  Open space allocation: [%]

DENSITY-DISTANCE GRADIENT:
+--------+--------+-------+--------+---------+----------+
| Zone   | Radius | Area  | FAR    | GFA     | Height   |
+--------+--------+-------+--------+---------+----------+
| A Core | 0-200m | XX ha | X.X    | XXX m2  | X-X st   |
| B Urban| 200-   | XX ha | X.X    | XXX m2  | X-X st   |
|        | 400m   |       |        |         |          |
| C Trans| 400-   | XX ha | X.X    | XXX m2  | X-X st   |
|        | 600m   |       |        |         |          |
| D Edge | 600-   | XX ha | X.X    | XXX m2  | X-X st   |
|        | 800m   |       |        |         |          |
+--------+--------+-------+--------+---------+----------+
| TOTAL  |        | XX ha |        | XXX m2  |          |
+--------+--------+-------+--------+---------+----------+

PROGRAM MIX:
  Residential:      XXX,XXX m2 (XX%) -> XX,XXX units -> XX,XXX residents
  Office:           XXX,XXX m2 (XX%) -> XX,XXX jobs
  Retail / F&B:     XXX,XXX m2 (XX%)
  Civic / Community:XXX,XXX m2 (XX%)
  Hotel:            XXX,XXX m2 (XX%) -> X,XXX keys
  TOTAL GFA:        XXX,XXX m2

PARKING:
  Residential parking ratio: X.X spaces/unit
  Total residential spaces: X,XXX
  Commercial parking ratio: X.X spaces/100 m2
  Total commercial spaces: X,XXX
  Car-share spaces: XXX
  Bicycle parking spaces: X,XXX

ITDP TOD STANDARD SCORECARD:
  1. WALK:    XX / 15
  2. CYCLE:   XX / 5
  3. CONNECT: XX / 15
  4. TRANSIT: XX / 5
  5. MIX:     XX / 15
  6. DENSIFY: XX / 15
  7. COMPACT: XX / 10
  8. SHIFT:   XX / 20
  -------------------
  TOTAL:      XX / 100
  AWARD:      [Gold / Silver / Bronze / None]

STATION AREA:
  Station plaza area: X,XXX m2
  Interchange modes: [list]
  Bicycle parking at station: XXX spaces
  Kiss-and-ride spaces: XX
  Bus bays: XX

FIRST-LAST MILE:
  Pedestrian network completeness: XX%
  Protected bike lane coverage: XX%
  Feeder bus routes: XX
  Wayfinding system: [yes/no]

PHASING:
  Phase 1 (0-3 years): Zone A + Station infrastructure
  Phase 2 (3-7 years): Zone B + Public realm
  Phase 3 (7-12 years): Zone C + Community facilities
  Phase 4 (12-20 years): Zone D + Network completion

8. Reference Links

Primary Standards and Guidelines

ITDP TOD Standard v3.0: https://www.itdp.org/2017/06/23/tod-standard/
ITDP Our Cities Ourselves -- 10 Principles: https://www.itdp.org/
TCRP Report 102 -- Transit-Oriented Development in the United States: https://www.trb.org/
FTA TOD Policy and Research: https://www.transit.dot.gov/TOD
ULI Ten Principles for Successful Development Around Transit: https://uli.org/
Reconnecting America TOD Resources: http://www.reconnectingamerica.org/

TOD Typology and Density References

Detailed TOD typology specifications are documented in:

references/tod-typologies.md

This reference provides 8 complete TOD typology profiles with design parameters, density targets, use mix, street types, parking strategy, and global precedents.

ITDP Standard Detailed Scoring

Complete ITDP TOD Standard v3.0 scoring criteria, calculation methodology, and design strategies are documented in:

references/itdp-standard.md

Supplementary Resources

Cervero, R. -- The Transit Metropolis: A Global Inquiry (Island Press)
Calthorpe, P. -- The Next American Metropolis (Princeton Architectural Press)
Dittmar, H. and Ohland, G. -- The New Transit Town (Island Press)
Hong Kong MTR Property Development Model: https://www.mtr.com.hk/
Singapore URA Master Plan and TOD Guidelines: https://www.ura.gov.sg/
Tokyo Station Area Development (Marunouchi): reference for air-rights TOD
Curitiba BRT-Oriented Development: reference for BRT TOD corridor
Copenhagen Finger Plan: reference for regional TOD structure
Portland MAX TOD Corridor: reference for LRT TOD in North American context
C40 Cities TOD Resources: https://www.c40.org/