Results 31 to 40 of about 538 (177)
This work demonstrates a new strategy for reversible protonic ceramic cells (R‐PCCs). By developing highly hydrophilic oxides, efficient operation is achieved under low water vapor pressures while maintaining high performance and stability. This approach addresses the challenge of hydrogen production in freshwater‐scarce regions.
Nai Shi +15 more
wiley +1 more source
Demand-responsive transport (DRT) systems struggle to strike a balance between universal accessibility and efficient, equitable service delivery. This study utilises MATSim to evaluate two distinct DRT policies in Greater Melbourne: a serve-all policy ...
Sapan Tiwari
doaj +1 more source
We address alternatives in local transportation service offerings to members of retirement communities. A continuing policy dialogue on serving the transportation needs of our retirement-aged citizens has directed attention to demand-responsive services.
Steven D. Silver
doaj +1 more source
Evaluating demand responsive transit services using a density-based trip rate metric
Demand responsive transit (DRT) is attracting increased attention as a means to provide public transit to low-density populations. This research aims to provide a suite of evaluation metrics with low data requirement and widespread availability, so that ...
Benjamin Kaufman +2 more
doaj +1 more source
Electrochemical energy storage breaks down under extreme miniaturization, where interfaces and space‐charge dominate device behavior. This work introduces a fixed‐charge selective interphase (FCSI) integrated into a twin‐tube micro‐Swiss‐roll architecture.
Yaping Yan +12 more
wiley +1 more source
Value of Reliability for the Waiting Stage, In-vehicle Stage and Transfer Stage of Demand Responsive Transport (DRT) Services [PDF]
On-demand modes are playing an ever-increasing role in urban transportation. Inparticular, Demand Responsive Transit (DRT) (shared on-demand modes such asshared ride-hailing and microtransit) can complement scheduled public transportthanks to their ...
van Oort, N. (author) +4 more
core
Demand-Responsive Transport (DRT) promises to improve public transport in urban peripheries, but many real-world implementations fail due to a misalignment with travel demand.
Hussein Mahfouz +4 more
doaj +1 more source
Nitrogen‐stitched rGO forms an active charge‐regulating bilayer on graphite that pre‐adsorbs, guides, and delivers Li+ into the lattice. This adsorption–migration–diffusion pathway accelerates Li+ transport, stabilizes the interface, and enables fast‐charging performance beyond conventional graphite limits.
Hojun Moon +6 more
wiley +1 more source
How social innovations emerge in a rigid regulatory context : The case of Demand Responsive Transport in Switzerland [PDF]
Demand responsive transport (DRT) solutions may improve rural transport systems. These solutions often emerge as social innovations in rural areas. In Switzerland, their planning process is embedded in a rigid regulatory framework of the public transport
Mayer, Heike, Imhof, Sebastian
core +1 more source
Demand-Responsive Transit, Evaluation Studies [PDF]
Demand-responsive transit (DRT) is a flexible form of public transport that adjusts the service based on travelers’ needs. DRT usually operates as feeder services to traditional transit systems, providing connectivity to low density and rural areas.
Sebastián Raveau +1 more
core +1 more source

