The recent news articles in The Australian Financial Review highlight the ongoing security concerns of US and Australian authorities with Chinese submarine cable technology suppliers.  The United States has previously expressed concerns about Huawei and other Chinese submarine cable suppliers fearing security breaches (e.g. interception of sensitive data).

The issues raised by the US and Australian authorities’ concerns with Chinese suppliers further validate our decision last year to appoint TE SubCom, a US company and industry pioneer in undersea communications technology, to build the subsea portion of the Pacific Fibre cable.

Having a US vendor on board reduces the risk of Pacific Fibre facing the same concerns from regulatory authorities in relation to security breaches on our cable system.

Last month we announced the completion of our Californian and Australian landings desktop study and Californian permitting study in conjunction with TE SubCom. With initial approvals obtained from Californian permitting authorities, the project is now set to move forward with the marine route study.

We are confident that we will secure all permits and licences required to land the Pacific Fibre cable in the United States, Australia and New Zealand.

Where this leaves the proposed Huawei Marine built trans-Tasman cable, is another question.

Mark Rushworth – CEO Pacific Fibre

 

 

Pacific Fibre & TE SubCom – Trans-Pacific Subsea Cable Friday, 2 March 2012, 12:56 pm Press Release: Pacific Fibre

Pacific Fibre And TE SubCom Complete Permitting Study For Trans-Pacific Subsea Cable System

Marine Route Survey Begins for Record-Breaking 12,950km System

AUCKLAND, NEW ZEALAND and MORRISTOWN, NJ, USA – February 29, 2012 – Pacific Fibre and TE SubCom, a TE Connectivity Ltd. company and an industry pioneer in undersea communications technology, today announced the completion of their Californian and Australian landings Desk Top Study (DTS) and Californian permitting study for the 12,950km two-cable Pacific Fibre undersea cable system that will link Australia, New Zealand and the United States.

The permitting study, conducted by TE SubCom, identified all necessary permits needed along the route for the Californian landing as well as appropriate agencies, timetables and dependencies required for approvals. During the study, TE SubCom’s permitting experts met with permitting authorities and affected fisheries to introduce the project, gain preliminary approvals and obtain input on the route. With initial approvals attained, the project is now set to move forward with the marine route study.

“Conducting this DTS and the Californian permitting study process signifies forward growth for us, and we’re excited to have reached their conclusion,” said Mark Rushworth, CEO, Pacific Fibre. “With all systems go, we’re ready to begin the next phase of the project and move one step closer to its completion.”

“In our experience, early review and support from Californian fisheries is vital to a successful project implementation,” said David Coughlan, CEO, TE SubCom. “The completion of these studies helps to mitigate permitting risks while allowing the project to stay on course for a timely installation.”

Scheduled to be finalised in 2014, the Pacific Fibre system will meet the increasing demand for international bandwidth in Australia and New Zealand. Upon the project’s completion, the system will be the highest-capacity-per-fiber-pair system longer than 10,000km, boasting a significantly higher cross sectional capacity than any other trans-Pacific cable.

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About Pacific Fibre
Pacific Fibre was founded in 2010 and is headquartered in Auckland, New Zealand. The Pacific Fibre shareholders include a number of successful entrepreneurs with proven track records, including Sam Morgan, Rod Drury, Sir Stephen Tindall, David Kirk MBE, and early Facebook investor Peter Thiel.

The Pacific Fibre cable will be one of the longest and most technically advanced cable systems when it goes live in 2014. It will link Los Angeles directly to Auckland, New Zealand and then continue to Sydney, Australia via a trans-Tasman link and will offer the fastest route from Australia and New Zealand to the United States. With an initial design speed of 10.2Tbps using 40Gbps technology, it will have the largest forecast capacity of any cable in the region. The design also supports upgradeability to 100Gbps technology, and there is potential to upgrade beyond this in the future as technology develops. Pacific Fibre will operate a POP to POP policy allowing customers to connect at conventional peering points, with customer friendly interfaces.
For more information visit www.pacificfibre.net.

About TE SubCom
TE SubCom (SubCom), a TE Connectivity Ltd. company, is an industry pioneer in undersea communications technology and marine services and a leading global supplier for today’s undersea communications requirements. Drawing on its heritage of technical innovation and industry recognized performance, SubCom delivers the most reliable, high quality solutions to organizations with undersea communications needs vital to their core mission. The company designs, manufactures and installs systems around the world, and has deployed more than 490,000km of subsea communication cable—or enough to circle the earth more than 12 times at the equator SubCom’s global presence, backed by industry leading research and development laboratories, manufacturing facilities, installation and maintenance ships, depots, and management team work together to implement integrated solutions and network upgrades, with unsurpassed reliability, that support the needs of telecommunications, internet providers, offshore and science customers worldwide.

For more information visit www.SubCom.com.

About TE Connectivity
TE Connectivity is a global, $14 billion company that designs and manufactures approximately 500,000 products that connect and protect the flow of power and data inside the products that touch every aspect of our lives. Our nearly 100,000 employees partner with customers in virtually every industry—from consumer electronics, energy and healthcare, to automotive, aerospace and communication networks—enabling smarter, faster, better technologies to connect products to possibilities. More information on TE Connectivity can be found at http://www.te.com.

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Monday, February 27, 2012

See Full Article Here
Scripps researchers, NOAA and TE SubCom agree to pursue science ports on transcontinental fiber optic cable lines to help monitor earthquakes, tsunamis and other forces

Scripps Institution of Oceanography / University of California, San Diego

Marine scientists and a commercial telecommunications company are exploring partnerships that could dramatically advance scientists’ ability to observe and study ocean processes, provide early alerts for potential disasters and study deep Earth geodynamics.

Scientists from Scripps Institution of Oceanography at UC San Diego and engineers at NOAA’s Pacific Marine Environmental Laboratory (PMEL) are in the initial discussion stages with Morristown, N.J.-based TE SubCom, a TE Connectivity Ltd. company and an industry pioneer in undersea communications technology, to integrate scientific instruments onto thousands of miles of seafloor communication cables across the Pacific Ocean. The data collected will be open and available to the global scientific community.

“This is the first time a commercial telecommunications company’s cable installations will be deployed with embedded science sensors,” said John Orcutt, a distinguished professor of geophysics at Scripps and one of the leaders of the project. “It provides us with a whole new world of capability.”

The exploratory partnership between Scripps researchers, NOAA and TE SubCom is in the formative stages seeking funding for engineering and operations and looking at new approaches to collect high-bandwidth ocean data from the seafloor.

“This is an exciting opportunity to launch a new direction in subsea telecommunications, as there is significant potential in opening up data and power connectivity along undersea cables,” said Mark Englund, managing director, TE SubCom. “TE SubCom has a solution for ocean connectivity with unprecedented performance-to-cost ratios, and together with Scripps and PMEL, we have the right ingredients to make cable-based ocean connectivity a reality in every major ocean.”

The initial project is envisioned to focus along a cable route spanning 12,950 kilometers (8,105 miles) from Sydney to Auckland and across the Pacific Ocean to Los Angeles. Initial efforts are exploring the use of seismometers, pressure gauges and temperature sensors for hazard warning and mitigation. As funding develops, sensors could be deployed on future cables for the first time at 75 kilometers (47 miles) spacing. The sensors could allow NOAA scientists to measure the size and direction of tsunamis propagating across the ocean more precisely and to alert disaster management officials and first responders more quickly. The installation on the seafloor cable has the potential to greatly reduce long-term costs for tsunami monitoring, while at the same time dramatically increasing sensor density, accuracy and reliability.

“We’ve seen an unprecedented number of large and devastating tsunamis over the last several years,” said Christopher Sabine, Director of NOAA-PMEL. “We must explore new approaches for improving tsunami detection at lower costs while maintaining our existing capabilities.”

The fiber optic cable is capable of transmitting data at a maximum of 40 gigabits per second from deep-sea locations where gaps of instrument coverage currently exist. For comparison, the entire print collection of the Library of Congress could be transmitted over the link in just more than 30 minutes.

“More than 70 percent of the world is water and we need to understand much more of it,” said Orcutt, a scientist at the Cecil H. and Ida M. Green Institute of Geophysics and Planetary Physics at Scripps. “If this project expands to other oceans it could change the face of oceanography.”

The collaborators hope the academic-government-industry project will create a handful of new jobs, primarily in data management and near-real-time analysis, while providing the scientific community with an invaluable stream of data.

In addition to seismometers and pressure gauges, the scientific ports along the cable line could eventually include a comprehensive suite of sensors such as climate instruments (acoustic tomography and water column temperature and conductivity, for example) to measure ocean warming.

“We strive to explore new ways of observing the ocean that are innovative as well as cost-effective. This three-way collaboration between academia, government and industry could change the way we work,” said Sabine.

Scripps research geophysicist Frank Vernon, deputy director of the NSF Ocean Observatories Initiative Cyberinfrastructure program, is expected to use seismological data from the project to supplement details of Pacific Ocean earthquakes and develop deep images across the Pacific that presently are not possible.

“Currently we don’t have enough seismometers out there, so this effort will help us better understand the world beneath us,” said Vernon. “This includes our understanding of the plates, the interfaces inside the Earth and structural components from the crust down to the core.”

About TE SubCom
TE SubCom (SubCom), a TE Connectivity Ltd. company, is an industry pioneer in undersea communications technology and marine services and a leading global supplier for today’s undersea communications requirements. Drawing on its heritage of technical innovation and industry recognized performance, SubCom delivers the most reliable, high quality solutions to organizations with undersea communications needs vital to their core mission. The company designs, manufactures and installs systems around the world, and has deployed more than 490,000km of subsea communication cable-or enough to circle the earth more than 12 times at the equator. SubCom’s global presence, backed by industry leading research and development laboratories, manufacturing facilities, installation and maintenance ships, depots, and management team work together to implement integrated solutions and network upgrades, with unsurpassed reliability, that support the needs of telecommunications, internet providers, offshore and science customers worldwide.
For more information visit www.SubCom.com.

About TE Connectivity
TE Connectivity is a global, $14 billion company that designs and manufactures approximately 500,000 products that connect and protect the flow of power and data inside the products that touch every aspect of our lives. Our nearly 100,000 employees partner with customers in virtually every industry-from consumer electronics, energy and healthcare, to automotive, aerospace and communication networks-enabling smarter, faster, better technologies to connect products to possibilities. More information on TE Connectivity can be found at http://www.te.com.

About NOAA-PMEL
NOAA’s Pacific Marine Environmental Laboratory (PMEL) conducts interdisciplinary scientific investigations in oceanography and atmospheric science. PMEL programs focus on open ocean observations in support of long-term monitoring and prediction of the ocean environment on time scales from hours to decades. Studies are conducted to improve our understanding of the complex physical and geochemical processes operating in the world oceans, to define the forcing functions and processes driving ocean circulation and the global climate system, and to improve environmental forecasting capabilities and other supporting services for marine commerce and fisheries. More at www.pmel.noaa.gov

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