海底观测

同时，为了进一步扩展海底观测网络的测量范围，无缆水下机器人（AUV）被并入海底观测网络体系中，本课题采用光通讯来实现水下AUV和深海观测网络间的高速通信。

Meanwhile , in order to expand the observatory range of deep seafloor observatory network , Autonomous Underwater Vehicle ( AUV ) had been incorporated into the system . We used optical communications to realize the high-speed communications between AUV and the deep seafloor observatory network .

海底观测网络水下接驳技术是海洋科学与技术领域的前沿课题。

Underwater junction technology of seafloor observatory network has become the forefront subject of the ocean science and technology .

海底观测网络在实施长期、连续、实时、原位的海洋观测中具有不可替代的作用。

The cabled seafloor observatories play an irreplaceable role in long-term , continuous , real-time , in-situ observation of ocean .

大洋钻探诸多科学目标的实现与包括钻探、取芯、测试和海底观测技术在内的各种新技术的开发和革新密不可分。

Achievements of the scientific ocean drilling are closely related to the developments and renovations of new technologies in drilling , coring , measurement and observation .

将多个海底观测设备在水下连接，实现对各种海底观测设备所需电能和信息集中控制和管理的技术，称为水下接驳技术。

Underwater junction technology connects several seafloor observation instruments underwater , and implements centralize control and management for electric energy and information of various seafloor observation instruments .

文中首先介绍了海王星计划的由来与背景，然后分析了其基础架构及实现的关键技术，并对我国海底观测技术的发展提出了建议。

Here introduced the background of NEPTUNE firstly , then analyzed the infrastructure and critical technologies , and put forward suggestions on the development of our submarine observation technology .

本论文针对当前海底观测网及其电能管理系统的研究现状，分析了电能管理系统功能需求，并提出了功能实现的方法。

On base of actuality of seafloor observatory and its power-management system , this thesis analyses the functions of power-management system and puts forward the methods to realize these functions .

提出了一种由监控中心层、主干网层和子网层构成的海底观测网络系统结构。

A sort of system architecture of seafloor observatory network was presented , which is composed of the control center layer , the backbone network layer , and the subnet layer .

为了接收海底观测网科学仪器采集的数据，控制科学仪器的运行，需要为每类科学仪器研制远程控制软件。

In order to receive data from scientific instruments and control scientific instruments in an undersea observatory network , remote control software is required to be developed for each scientific instrument .

而且还可以直接用来寻找渗漏相关特征，为海底观测和取样提供依据。

Seismic data not only can image the deep structure and provide the conduit and gas source information for seepage , but also can be used to find gas-related features directly and guide on marine observation and sampling .

渤海地区海底地震观测的条件；

Conditions for sea-bottom seismograph observation in the Bohai Sea area .

深海底世界观测的重要手段&深拖系统

A New Deep Sea Survey Method - Deep Tow System

日本海底地震观测现状与进展

State and progression of Japanese sea base seismic observation

海底地震观测系统

Seismic observation system on the sea floor

渤海地区海底地震观测仪器与技术的某些初步研究结果；

Some results of preliminary study on instruments and techniques for ocean-bottom seismograph observation in the Bohai Sea area .

浅海情况下海底地震观测噪声的模拟实验研究结果。

The results of experimental modelling researches on the noises of ocean-bottom seismograph observation in the case of shallow sea .

本文是在日本造船振兴财团的经费赞助下在中国渤海地区发展海底地震观测的初步技术报告。

The present paper is a preliminary technical report of the development of ocean-bottom seismograph observation in the Bohai Sea area of China , conducted under financial support from Japan Foundation for Shipbuilding Advancement .

海底地震仪观测的粘弹性地层地震波场正演模拟

Seismic Wave Field Modeling of Viscoelastic Strata Using Ocean-bottom Cable

根据海底地震仪观测资料确定克里特海岩石层S波的衰减

Attenuation of S-waves in the lithosphere of the Sea of Crete according to OBS observations

国家863计划6000米海底有缆观测与采样系统&电视抓斗的研制（编号2001AA612030）课题正是为满足十五期间大洋矿产资源调查的采样技术需要而研制具有独立自主知识产权的深海定点观察与采样技术。

The task " the development of TV grab bucket - cabled observation and sampling system benthal 6000 meters deep " is belong to Nation " 863 " plan . This task meets the need of ocean mineral resource reconnaissance .

海底地磁日变观测站的设计与应用

Technology and Application of the Geomagnetism Observation Mooring System on the Seafloor

海底地质取样和观测

Geological sampling and observation at the sea bottom

海底接驳盒是对电能和数据信号进行集中转换和处理的中间环节，是海底观测网络的核心。

Seafloor junction box is the node of power conversion and communication and is the center of seafloor observation network .