Hawk

陆上地震勘探多功能工具。

Hawk是一个具有前所未有灵活性的自动节点系统;一套无需任何无线电基础设施,即可支持模拟或数字传感器的地面电子设备。

野外观测站设备最多可包括3个模拟和3个数字通道。数字传感器接口与 Accuseis和VectorSeis兼容,通过一套地面设备提供一系列通道和部署配置选项。

无与伦比的灵活性。

从来没有人会说:我想要一个脆弱的节点系统,数据下载速度极其缓慢,需要不同的设备支持数字和模拟传感器,并还在使用无线电传输!

我们认为节点系统应该是易于操作和部署的、具有高度耐用性和高速下载速度!在操作节点系统时,对记录和数据质量的信心至关重要。因此数据的访问和QC必须尽可能容易。Hawk的设计考虑了这两个关键因素。

它不仅是业内最快的转录过程,也是唯一使用一套地面电子设备支持模拟或数字传感器的系统。这就意味着单一系统即可满足几乎所有勘探设计和成像要求。

让我们告别低效的设备利用率,让它变得简单!

我们有没有提到Hawk完全集成到我们的有线系统G3i HD中?

您可以任何您认为必要的方式组合这两个系统,并通过一个平台运行整个操作—为客户端提供SEG-Y或SEG-D格式的数据集。这才是它存在的真正价值。

产品亮点

  • 每个野外观测站设备(FSU)最多可存储16GB的模拟或数字传感器数据
  • 支持蓝牙和WiFi连接-无需无线电基础设施
  • 支持高生产率可控震源操作(HPVS),包括滑动扫描、DS3、DS4和HFV
  • 操作灵活性–同一野外观测站电子设备中最多可安装3通道模拟检波器和英洛瓦数字传感器

iX1

您是否对使用不同的计算机和操作系统来管理数据下载和转录很感兴趣?或者您对使用两个单独的记录系统的混合操作感兴趣?我们不建议这样做。所有英洛瓦记录系统都由名为iX1的可靠软件提供动力。iX1将震源控制和混合系统传播/扩展管理集成到一个简化视图中,供观测员使用。我们觉得您可能还希望在同一软件中看到数据下载和转录进度,因此我们也为此开发了一个模块。我们能否为您提供其他使您的系统更舒适的服务?

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模拟阵列

模拟阵列

野外观测站设备(FSU)是一款神奇的设备。智能灵活,支持各种阵列,包括抽头电缆选项,进一步降低拥有成本。

支持的模拟阵列:

  • 1C 模拟阵列

  • 3x 1C 模拟阵列

模拟传感器

模拟传感器

各种模拟点传感器均由一个简单、高度耐用且轻巧的箱体支持。

.

支持的模拟点传感器:

  • 1C模拟单点传感器

  • 3C模拟单点传感器

  • 3x 1C单点传感器

数字传感器

数字传感器

为了扩展Hawk采集系统的使用性能,我们设计了FSU,以满足所有场景和成像需求。一个小箱体就能搞定一切。

支持的数字传感器:

  • 1C数字单点传感器,Accuseis

  • 3C数字单点传感器,VectorSeis

  • 3x 1C 数字阵列, Accuseis

Cable System Integration

Cable System Integration

Two systems, one dataset -beautiful harmony.

Say goodbye to the frustration of managing two recording systems for the same survey. INOVA’s Hawk and G3i HD are fully integrated so you can deliver one seamless dataset to your clients.

The onboard iX1 software in all INOVA recording systems allows you to manage the entire spread, and reflects both cable and nodal ground units on a single, intuitive display.Observers have full command and control over operations, so they can quickly QC and manage data, sources and spread diagnostics in one location.

Mixed Source

Mixed Source

It’s common to have surveys over a large area where terrain varies and dictates the use of vibs and dynamite. Hawk supports both kinds of energy sources and offers an intuitive source QC functionality through the onboard iX1 software. Hawk can also support a wide variety of High Productivity Vibroseis Operations (HPVS).

Common Data Format

Common Data Format

The power of the iX1 software provides a single common data format when operating INOVA cable and cable less systems together. No headache of merging datasets here.

Bluetooth & WiFi

We made the decision to eliminate radio infrastructure to reduce complexity and get crews up and running quickly. Crews can access station status, GPS performance and sensor diagnostic information using the QCTool with WiFi communication. For in-field data sampling, we’ve created technology that collects geophysical data using WiFi.

Speed and Accuracy

Speed and Accuracy

In our Hawk and & Quantum acquisition systems, and in our iX1 system software, we offer accurate navigation and GPS positioning information. Equipment deployment/retrieval, troubleshooting and in-field QC is more efficient and can be optimized using the reporting capabilities of iX1.

Included in every Hawk system is the QCTool and which provides the crew with full visibility over deployment/retrieval operations, equipment status and data QC, and also enable remote geophysical data harvesting.

For improved navigation and control over vibrator operations, we offer ConnexVib as an optional in-cab, upgrade to any INOVA vibrator.

In-Field Data Storage

In-Field Data Storage

Each Field Station Unit (FSU) contains 16GB of data storage or the equivalent of ~90 days with 24-hour recording at 2ms sampling using a 1C sensor. This means, with proper battery management, you can shoot for weeks before you need to download the data.

Checking the status of each FSU to ensure the sensors and equipment are functioning properly is easily managed with the iX1 onboard software and the QCTool.

Data Retrieval & Transcription

Data Retrieval & Transcription

We developed the Hawk to support downloads of continuous or shot-based data, which significantly reduces downloading time.You simply plug the nodes into the download rack (up to 24 FSUs at a time per rack, scaleable up to 624 per trailer), and within 10 minutes you have access to shot records.

We also provide several options for data conditioning including:

  • Import receiver gathers
  • Output shot gathers: correlate, correlate + stack or VOR
  • Export in either SEG-Y or SEG-D format

Batteries & Charging

Batteries & Charging

Each FSU requires a dedicated battery to support the receivers and data storage. Our lithium ion battery is 288 WHr and enables ~30 days of continous recording with 1C analog sensor. Batteries brought in for charging in the trailer can be fully charged within 6 hours. Each battery rack can support up to 32 batteries at a time.

Hawk系统规格书

Download

支持的传感器: 1、2 或 3 通道模拟传感器; 1 -3c 数字传感器
工作温度: -40°C~+85°C
数据存储: 每台野外观测站设备(FSU)均为16GB(可升级至32GB)
电池选项: 288 瓦时; 3.45kg(7.6磅)
功耗: 309兆瓦(1通道模拟)380兆瓦(3通道模拟)950兆瓦(3C数字)
重量: 1.72 kg (3.8lb)
LED状态指示灯 站点健康、传感器健康、GPS 信号、电池电压
无线通信接口 蓝牙和Wi-Fi
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