New Model Boat

Your Professional New Model Boat Supplier

Qingdao Hisheng Ship Technology Co., Ltd. was established in 2015 and specializes in the design and construction of aluminum and FRP vessels. The company operates modern production facilities and has expanded its manufacturing capacity through two branch companies: Hainan Ocean Hammer Boat Technology Co., Ltd. (established in 2022) and Liaoning Ocean Hammer Boat Technology Co., Ltd. (established in 2024). All vessels are built in compliance with recognized classification standards, ensuring consistent quality and reliability for international clients.

First 12 Last 1/2

Why choose us

Compliance with Classification Standards

All aluminum and FRP boats are built in strict accordance with recognized classification standards, ensuring safety, reliability, and consistent quality.

Certifications

The company is certified to ISO 9001 (Quality Management), ISO 14001 (Environmental Management), and ISO 45001 (Occupational Health and Safety), supporting consistent production and controlled processes.

Production Market

Our products were sold all over the world, mostly in Korea, Thailand, Japan, America, Australia, Canada, Mexico and so on.

Service Advantages

From design and production to quality control and after-sales service, we provide coordinated support to ensure smooth project execution.

Unmanned Sea Vehicle

Unmanned Sea Vehicle is a marine vessel that operates on the water without a human crew onboard. These advanced vessels are either remotely controlled by an operator or function autonomously using pre-programmed navigation systems, artificial intelligence (AI), and real-time sensor feedback. USVs are revolutionizing maritime operations across multiple sectors, including defense, commercial shipping, environmental science, and oceanographic research.

Features of Unmanned Sea Vehicle

Remote Operation

USVs can be controlled in real time from onshore command centers or mother ships via secure communication links. This capability allows operators to conduct missions in extreme weather, contaminated zones, or conflict areas without endangering personnel. Remote control interfaces often include live video feeds, telemetry data, and interactive navigation tools.

Autonomous Capabilities

Many USVs operate autonomously using pre-programmed mission plans or AI-driven navigation systems. They leverage GPS, obstacle avoidance algorithms, and sensor fusion to navigate complex environments, avoid collisions, and adapt to changing conditions. Autonomy reduces the need for constant operator input and enables extended, unattended missions—ideal for long-term monitoring or large-area surveys.

Data Integration and Analysis

USVs integrate data from multiple onboard sensors—including sonar, cameras, meteorological instruments, and water quality probes—into unified datasets. Onboard processors can perform preliminary data analysis, filtering, and compression before transmission, ensuring efficient use of bandwidth. Cloud-based platforms allow for real-time visualization, collaborative analysis, and integration with GIS (Geographic Information Systems).

Cost-Effectiveness

Compared to manned vessels or aerial drones, USVs offer significant cost savings. They eliminate the need for crew accommodations, reduce fuel consumption through efficient electric or hybrid propulsion, and lower insurance and labor costs. Their ability to operate continuously over days or weeks increases data yield per mission, improving return on investment for scientific, commercial, and governmental users.

Types of Unmanned Sea Vehicle

Remotely Operated Surface Vehicles (ROSVs)
ROSVs are controlled in real time by a human operator from a remote location using wireless communication systems. These vessels are equipped with cameras, radar, GPS, and other sensors that provide live feedback, enabling precise navigation and mission execution.

Autonomous Surface Vehicles (ASVs)
ASVs operate independently using onboard AI, machine learning algorithms, and sensor fusion technology. These vessels can plan routes, avoid obstacles, adapt to weather conditions, and complete missions without human input after initial programming.

Unmanned Combat Surface Vehicles (UCSVs)
UCSVs are military-grade USVs designed for offensive and defensive naval operations. These vessels can be armed with missiles, torpedoes, guns, or electronic warfare systems and are used for reconnaissance, strike missions, and force protection.

Survey and Mapping USVs
These USVs are equipped with advanced hydrographic tools such as multi-beam sonar, LiDAR, GPS, and high-resolution cameras to conduct underwater terrain mapping, seabed surveys, and coastal monitoring.

Research and Monitoring USVs
Designed for environmental and oceanographic studies, these USVs carry scientific payloads including sensors for temperature, salinity, pH, dissolved oxygen, pollution levels, and biological sampling equipment.

Application of Unmanned Sea Vehicle

Military and Defense

In defense operations, USVs play a vital role in enhancing maritime security and reducing risk to personnel. They are deployed for coastal surveillance, intelligence gathering, and reconnaissance missions, often equipped with radar, sonar, and electro-optical systems.

Research and Exploration

USVs are revolutionizing oceanographic and environmental research by enabling long-duration, autonomous data collection across vast marine areas. Equipped with sensors and scientific instruments, they monitor water temperature, salinity, pH levels, dissolved oxygen, and chlorophyll concentrations.

Commercial Shipping and Logistics

In the maritime logistics sector, USVs enhance the safety and efficiency of shipping operations. They are used to inspect port infrastructure, monitor shipping lanes for obstructions, and survey underwater assets such as pipelines, offshore oil platforms, and subsea cables.

Agriculture and Aquaculture

USVs are increasingly utilized in precision agriculture and aquaculture management. In inland water bodies and coastal farms, they monitor water quality parameters—such as nutrient levels, turbidity, and algal blooms—to optimize fish health and feeding schedules.

Disaster Management and Emergency Response

During natural disasters such as floods, hurricanes, or oil spills, USVs provide rapid situational awareness by assessing flood levels, mapping inundated areas, and detecting hazardous substances in water.

Tourism and Marine Conservation

In the tourism industry, USVs offer innovative ways to enhance visitor experiences while minimizing environmental impact. Autonomous sightseeing boats provide guided tours in marine parks, lakes, and heritage sites without noise pollution or emissions.

Core Functions of Unmanned Sea Vehicle

Surveying and Mapping

USVs are equipped with advanced sensors such as LIDAR (Light Detection and Ranging) and multibeam sonar systems to generate precise 3D maps of the seafloor and coastal zones. These capabilities are critical for identifying submerged hazards (e.g., shipwrecks, rocks), evaluating potential anchorage sites, monitoring sedimentation, and tracking long-term coastal erosion or accretion patterns. Their ability to operate in shallow or hazardous waters makes them ideal for hydrographic charting.

Hydrographic and Oceanographic Studies

USVs collect real-time data on essential ocean parameters including water temperature, salinity, dissolved oxygen levels, current velocity, and seabed composition. This information supports climate modeling, weather forecasting, and understanding ocean circulation patterns. Long-duration missions allow for continuous data collection, improving the accuracy of marine environmental models and supporting sustainable resource management.

Environmental Monitoring

Equipped with water quality sensors and biological sampling tools, USVs monitor pollution levels (e.g., oil spills, chemical runoff), algal blooms, and changes in marine biodiversity. They play a vital role in assessing ecosystem health, detecting early signs of coral bleaching, and evaluating the impact of industrial activities or climate change on marine habitats. Some models can even deploy and retrieve sensor buoys or drones for expanded monitoring coverage.

Maritime Domain Awareness (MDA)

USVs enhance maritime security by patrolling exclusive economic zones (EEZs), monitoring vessel traffic, and detecting illegal activities such as smuggling, illegal fishing (IUU), piracy, and unauthorized border crossings. Integrated radar, AIS (Automatic Identification System), and electro-optical cameras enable real-time surveillance and tracking. In defense applications, USVs can support naval operations by conducting reconnaissance, mine detection, or electronic warfare missions.

Engineering Design of Unmanned Surface Boats

Hull Materials: Most USVs feature lightweight composite hulls made from fiberglass-reinforced polymer (FRP) or carbon fiber. These materials provide excellent strength-to-weight ratios, corrosion resistance, and longevity in saltwater environments. Hull shapes are often designed for stability (e.g., catamaran or trimaran configurations) to minimize roll and enhance sensor accuracy during data collection.

Propulsion Systems: USVs typically use electric motors powered by lithium-ion battery banks, often supplemented by renewable energy sources such as solar panels, wind turbines, or wave energy converters. Hybrid systems extend mission duration and enable near-perpetual operation in favorable conditions. Propulsion options include water jets, propellers, or sail-assisted designs depending on mission profile and speed requirements.

Control Systems: USVs rely on GPS for global positioning and Inertial Measurement Units (IMUs) for real-time tracking of orientation, acceleration, and angular rate. Advanced control algorithms process this data to maintain course, stabilize the platform, and execute autonomous maneuvers. Some systems incorporate machine learning to improve navigation decisions over time based on environmental feedback.

Communication Systems: Reliable communication is critical for both remote control and data transfer. USVs are equipped with satellite communication (SATCOM) for global coverage, long-range VHF/UHF radio for line-of-sight control, and cellular or Wi-Fi when operating near shore. Data transmission protocols are often encrypted to ensure security and integrity, especially in defense or sensitive environmental applications.

Sensor and Data Systems: USVs host a modular array of sensors tailored to mission needs, including HD/IR cameras, radar, multibeam and side-scan sonar, meteorological stations, and chemical/biological sensors. Onboard data storage systems (e.g., solid-state drives) allow for terabytes of data collection, while edge computing enables real-time processing and anomaly detection. Sensor payloads can be swapped or upgraded, making USVs highly adaptable across different operational domains.

Additional Considerations

Environmental Resilience

Ensure the USV is rated for expected sea states (e.g., Beaufort Scale 4+), salinity levels, and temperature extremes

Launch & Recovery

Consider whether hand-launch, trailer-based, or crane-assisted deployment is needed based on vessel size and crew availability

Regulatory Compliance

Verify adherence to maritime regulations (e.g., COLREGs, SOLAS) and local unmanned vessel laws

Scalability

Opt for systems that support fleet operations with centralized command and control

Cost of Ownership

Factor in maintenance, software subscriptions, sensor calibration, and battery replacement over time

Certificates

FAQ

Q: How about your delivery time?

A: We have unmanned boats in stock. It depends on how many you need. If the quantity is small, we can deliver the goods soon. If it's a large quantity, we need to check our inventory and then give you an approximate delivery time.

Q: What's your warranty terms?

A: One year.

Q: How to choose the right model ?

A: It depends on continuous output power, Voltage, Frequency and fuel type.

Q: What is the warranty ?

A: One year.
We offer all spare parts free of charge during warranty period. After this period, spare parts are not free. What's more, a set of spare parts will be shipped together with engine and generator set free of charge.

Q: How is the after sale service and maintenance?

A: We offer installation,repair and maintain service abroad. And online guide service if needed anytime. Our before-sale, in-sale and after-sale service are all trustable, you can name it.

As one of the leading new model boat manufacturers and suppliers in China, we warmly welcome you to buy high quality new model boat made in China here from our factory. If you have any enquiry about customized service, please feel free to email us.