Marine Construction and Operation Challenges in the Barents Sea
New Lightweight Structures for Advanced Automotive Vehicles - Safe and Modular
New Techniques and Materials for Constructing Hydraulic Models
Erosion Control of Scour During Construction. Report 1: Present Design and Construction Practice
Performance Design of an Exhaust Superheater for Waste Heat Recovery of Construction Equipment
A LiDAR-Based Parking Slots Detection System
Flood Fight Techniques Workshop 9-11 December 1986, New Orleans, Louisiana
Bikeology : when design drives the bike : exhibition catalogue
Controlling of a return space vehicle along transition trajectories in atmosphere
An Alternative Design Approach for Detached Breakwater Projects
General Spillway Investigation: Hydraulic Model Investigation
Stable Riprap Size for Open Channel Flows
A Representative Driving Cycle for the Southern Expressway Compared to Existing Driving Cycles
Access Systems for Off-Road Machines
Vortex sensor of aerodynamic angle and true airspeed
Using a System Reliability Model to Optimize Maintenance Costs A Best Practices Guide
Engineering Design Guidance for Detached Breakwaters as Shoreline Stabilization Structures
A Note on Channel Junction Design
Dimensions for Safe and Efficient Deep-Draft Navigation Channels: Hydraulic Model Investigation
Flow Conditions at Pumping Stations, Cairo, Illinois: Hydraulic Model Investigation
An Estimate of Channel Roughness of Interoceanic Canals
Simplified Design Methods of Treated Timber Structures for Shore, Beach, and Marina Construction
Using a System Reliability Model to Optimize Maintenance Costs A Best Practices Guide
McGee Creek Pumping Station Sump, Pike County, Illinois: Hydraulic Model Investigation
Evolution of Sustainable and Resilient Pervious Concrete Pavement Technologies in India
Ship Navigation Simulation Study, Miami Harbor Navigation Improvement Project, Miami Florida
Erosion Control of Scour During Construction. Report 7: CURRENT ― A Wave-Induced Current Model
St. Johns Bayou Pumping Station, Missouri: Hydraulic Model Investigation