Deep learning has been used to improve intelligent transportation systems (ITS) by classifying ship targets in interior waterways. Researchers have created numerous classification methods, but they have low accuracy and misclassify other ship targets. As a result, more research into ship classification is required to avoid inland waterway collisions. We present a new convolutional neural network classification method for inland waterways that can classify the five major ship types: cargo, military, carrier, cruise, and tanker. This method can also be used for other ship classes. The proposed method consists of four phases for the boosting of classification accuracy for Intelligent Transport Systems (ITS) based on convolutional neural networ...
Maritime surveillance and situational awareness are of topical interest but require massive amounts ...
Reliable multitype and orientation vessel detection is of vital importance for maritime surveillance...
Knowledge on adversaries during military missions at sea heavily influences decision making, making ...
International audienceThis research delves into the classification of maritime vessels, utilizing me...
Artificial neural networks (ANN) are the most commonly used algorithms for image classification prob...
The shipping industry is developing towards intelligence rapidly. An accurate and fast method for sh...
For an autonomous ship to navigate safely and avoid collisions with other ships, reliably detecting ...
Ship Extraction is very important in the marine industry. Extraction of ships is helpful to the fish...
Autonomous ship technologies have gained considerable interest due to the minimization of the challe...
International audienceSynthetic-aperture radar (SAR) imagery has great potential for maritime survei...
The ability to locate and identify vessels of interest in satellite imagery plays a vital role in ma...
With a wide use of AIS data in maritime transportation, there is an increasing demand to develop alg...
The automatic classification of ships from aerial images is a considerable challenge. Previous works...
With the aim of solving the problems of ship trajectory classification and channel identification, a...
This paper addresses the problem of maritime vessel identification by exploiting the state-of-the-ar...
Maritime surveillance and situational awareness are of topical interest but require massive amounts ...
Reliable multitype and orientation vessel detection is of vital importance for maritime surveillance...
Knowledge on adversaries during military missions at sea heavily influences decision making, making ...
International audienceThis research delves into the classification of maritime vessels, utilizing me...
Artificial neural networks (ANN) are the most commonly used algorithms for image classification prob...
The shipping industry is developing towards intelligence rapidly. An accurate and fast method for sh...
For an autonomous ship to navigate safely and avoid collisions with other ships, reliably detecting ...
Ship Extraction is very important in the marine industry. Extraction of ships is helpful to the fish...
Autonomous ship technologies have gained considerable interest due to the minimization of the challe...
International audienceSynthetic-aperture radar (SAR) imagery has great potential for maritime survei...
The ability to locate and identify vessels of interest in satellite imagery plays a vital role in ma...
With a wide use of AIS data in maritime transportation, there is an increasing demand to develop alg...
The automatic classification of ships from aerial images is a considerable challenge. Previous works...
With the aim of solving the problems of ship trajectory classification and channel identification, a...
This paper addresses the problem of maritime vessel identification by exploiting the state-of-the-ar...
Maritime surveillance and situational awareness are of topical interest but require massive amounts ...
Reliable multitype and orientation vessel detection is of vital importance for maritime surveillance...
Knowledge on adversaries during military missions at sea heavily influences decision making, making ...