Lock-Side Coordination Frictions

Paper Demo: Lock-Side Coordination Frictions

An interactive policy sandbox for comparing fixed-budget governance designs in a connected lock network.

Author: Suyang Wang · GitHub: wsy1011 · wangsuyang@hhu.edu.cn

Mean pre-dispatch waiting

5.66 h

Expected first-leg waiting time under the baseline scenario

Mean total waiting

6.83 h

Used to capture aggregate coordination frictions

Low-efficiency-state share

41.2%

Shows the share of observations in persistent low-efficiency states

State 4 Share

24.2%

Tracks the system exposure to the most fragile state

Connected lock network map

Real coordinates come from the public demo snapshot, and the lines represent network connectivity and coordination links.

Current Focus: All Locks

Largest lock-level changes in the current scenario

Sorted by the magnitude of pre-dispatch waiting change under the current counterfactual. Governance object, allocation rule, and budget K all update this panel.

Yangjiawan

-2.413

Yanglin

-0.597

Nantong

0.000

Xiaba

0.000

Shaobo

0.000

System State Distribution

Baseline state shares help identify highly fragile structures at a glance

State 1
4.1%
State 2
54.7%
State 3
17.0%
State 4
24.2%

Pre-dispatch waiting changes for priority locks

Lock-level changes in expected pre-dispatch waiting under the current governance counterfactual

Yanglin

-0.597

Nantong

0.000

Xiaba

0.000

Yangjiawan

-2.413

Shaobo

0.000

Weicun

0.000

Yushan

0.000

Lvsi

0.000

Danjin

0.000

Qianhuang

0.000

Targeting index list

Click a lock name to focus the map on that lock.