水下成像的困难和水下图像的污染严重影响了人们对海洋的探索。
The max-entropy method is widely used in the image segmentation of underwater images.
距离选通激光水下成像系统中同步控制装置的研究设计是系统的关键技术之一。
The design of the synchronization control set for the laser underwater imaging system by distance trigger is one of the key techniques in the whole system.
该测量方法在激光水下成像、水下目标探测以及对潜激光通信都将具有重要的推广应用价值。
This means of measurement will be widely used in the fields such as laser underwater imaging, underwater target detection and laser submarine communication.
本研究以水下信道光的传输模型为理论依据,探讨提高水下成像距离和成像质量的有效方法。
The effective methods are discussed to enhance the quality and distance basing on the study of transmission model of light in water channel.
由于水下成像环境的特殊性,水下图像成像质量较差,传统图像处理技术已无法满足应用要求。
Because of the speciality of imaging environment in the deep sea, the quality of image is poor, traditional image technique cannot meet the need of application.
但由于海水介质的吸收和散射效应,严重影响了水下成像距离及图像质量,因而使其应用受到极大的限制。
Because the absorbing and scattering effect of ocean water affect severely the distance and quality of underwater imaging, the application of this technology is limited seriously.
从而实现了水下成像声呐探测系统的模拟,为水下声呐成像探测技术的研究提供了一个经济实用、高准确度的研究平台。
Then the simulation of underwater sonar imaging detection is realized. This study provides an economic, practical and precise research platform for underwater sonar imaging detection.
从而实现了水下成像声呐探测系统的模拟,为水下声呐成像探测技术的研究提供了一个经济实用、高准确度的研究平台。
Then the simulation of underwater sonar imaging detection is realized. This study provides an economic, practical and precise research platform for underwater sonar imaging detection.
应用推荐