Displaying items by tag: Hawaiki
New Zealand-based company Hawaiki Submarine Cable LP, and TE SubCom, a TE Connectivity company specializing in undersea communications technology, announced that more than half of the 15,000km of undersea fiber-optic cable that comprise the Hawaiki transpacific cable system have been implemented by TE SubCom.
“The start of 2018 finds Hawaiki closer and closer to ready for service”, said Remi Galasso, CEO of Hawaiki. “Landing the cable in its home country represents a major event for our team and I would like to take this opportunity to thank all our New Zealand partners for their continuous support. Hawaiki will bring huge benefits to New Zealand in terms of greater connectivity to Australia and the US, security of supply, diversity and increased business opportunities for the telecom and IT industries.”
With several thousands of kilometers of undersea fiber-optic cable on board, TE SubCom’s cable-laying vessel CS Responder is now berthed in Auckland, poised to begin marine activities for the New Zealand leg of the transoceanic cable system later this month. The operation will include the landing of the Hawaiki cable in Mangawhai Heads.
The Federal Communications Commission (FCC) license was granted to Hawaiki in December 2017. The US domestic segment between Oregon and Hawaii was completed in the last quarter of 2017. The international segment between Australia, New Zealand and Hawaii has been underway since early November 2017.
Cable landings in Pacific City, Oregon; Oahu, Hawaii; and Sydney, Australia have been successfully completed. Cable landing in American Samoa is scheduled in March 2018, and the Hawaiki cable system will be ready for service in June 2018.
Chris Carobene, vice president, Marine Services, TE SubCom said, “We’re proud of the progress to date on the Hawaiki system and look forward to it being ready for service later this year. The project showcases the SubCom team’s expertise in the transpacific market and has been a great example of the kind of partnership that results in a successful venture.”
Hawaiki will link Australia and New Zealand to the mainland United States, as well as Hawaii and American Samoa, with options to expand to additional South Pacific islands. With more than 43 Tb of new capacity available to the market, Hawaiki will introduce true competition and dramatically drop the cost of connectivity across the Pacific region.
As the first and only carrier-neutral cable system between Australia, New Zealand and the U.S., Hawaiki will be in a unique position to meet new market requirements and deliver tailored capacity solution at the most competitive price.
Global demand for bandwidth continues to grow at a remarkable rate driven by the rise of capacity-dependent applications like live video, augmented and virtual reality, and 4K/8K video. International submarine cable systems are more important than ever, considering that the total carrying capacity of subsea cables is in the terabits per second, while satellites typically offer only 1000 megabits per second.
The concept of sending communication signals through submarine cables dates back to the 1850s when the first submarine communication cables were laid, carrying telegraphy traffic. Subsequent generations of cables have carried telephone traffic, then data communications traffic. Modern subsea cables use optical fiber technology to carry digital data, including telephone, internet and private data traffic.
The importance of subsea cable systems is highlighted by the sheer extent of which the cables have spread across the globe. Typically about 1 inch (25mm) in diameter, submarine cables cover a much broader scope of connectivity than satellites do – as of 2006, overseas satellite links accounted for only 1 percent of international traffic, while the remainder was carried by undersea cable.
There has been increasing demand to expand capacity of subsea cables in the Pacific region in recent years – a switch in demand for cables connecting the Atlantic Ocean which separates Europe and the United States. For instance, between 1988 and 2003, approximately 70 percent of subsea fiber-optic cable was laid in the Pacific. This is in part due to the emerging significance of Asian markets in the global economy.
In early November 2017, the $350 million Hawaiki Transpacific Submarine Cable System began being laid, with the 15,000 Km subsea cable connecting Australia and New Zealand to Hawaii and the West Coast of the United States. The project is led by New-Zealand-based Hawaiki Submarine Cable LP and TE SubCom, a TE Connectivity company. Manufacturing for the cable system concluded at SubCom’s Newington, New Hampshire facility in October.
Hawaiki will link Australia and New Zealand to the mainland United States, as well as Hawaii and American Samoa, with options to expand to additional South Pacific islands. Hawaiki will be the highest cross-sectional capacity link between the US and Australia and New Zealand. The carrier-neutral cable system was co-developed by New Zealand-based entrepreneurs Sir Eion Edgar, Malcolm Dick and Remi Galasso.
TE SubCom has also played a significant role in the implementation of the high-capacity JUPITER transpacific cable system scheduled to launch in 2020. PLDT, NTT Communications, PCCW Global, SoftBank, Facebook and Amazon selected TE SubCom for the project that will connect Maruyama, Japan; Shima, Japan; Los Angeles, California; and Daet, Camarines Norte, Philippines.
“JUPITER will provide the necessary diversity of connections and the highest capacity available to meet the needs of the evolving marketplace,” said Koji Ishii of SoftBank, co-chairperson of JUPITER consortium. “TE SubCom has a proven record of success in the design and implementation of innovative, scalable and robust transoceanic cable systems.”
Sanjay Chowbey, president of TE SubCom, said submarine cables continue to have a critical impact on the global economy, as well as cultural, educational and medical advancement around the world.
“It is our privilege to help facilitate the growth of global connectivity and provide reliable, high-capacity and low-latency transmission to regions where bandwidth is at a premium,” Chowbey said. “We look forward to the next phases of what will be a high quality and industry leading system implementation.”
The largest telecommunications provider in the Philippines, Globe Telecom, also threw its weight into launching a significant subsea cable system project this year. In August, Globe Telecom launched the US$250 million Southeast Asia-United States (SEA-US) cable system, providing direct links between Davao City and the United States.
The 14,500km cable system uses 100Gbps transmission technology to deliver 20 terabits per second capacity (Tb/s). SEA-US was built by a consortium of seven international telecommunications companies and links five areas and territories that include Manado (Indonesia), Davao (Philippines), Piti (Guam), Oahu (Hawaii, United States), and Los Angeles (California, United States).
“First world connection is more than just fast internet but is also about building a better nation that transcends borders and opens infinite possibilities for everyone,” said Globe President and CEO Ernest Cu during its launch event on August 11. “We are excited about this development because of the immense benefits that the SEA-US undersea cable system will bring to the Philippines.”
Cu added: “For one, it will provide support for the expanding business requirements for data in the Mindanao region where the cable landing station is located and in the country as a whole. This will also ease our dependence on international cable systems and ensure the resiliency of the country’s internet connectivity.”
The link bypasses the Taiwan earthquake zone to ensure uninterrupted connectivity and greater resiliency to prevent an incident similar to a major quake in 2006 where international cables were broken causing the Philippines to be isolated for a few days in terms of internet connection. Cables can be broken by fishing trawlers, anchors, earthquakes, turbidity currents, and even shark bites. The 2011 Tōhoku earthquake and tsunami damaged a number of undersea cables that make landings in Japan.
Asia’s importance on the global scale was further underlined this year by the launch of the Asia-Africa-Europe-1 (AAE-1) cable system launched in July – the world’s largest submarine cable system in more than a decade. It’s the first submarine cable system to link all major Asian, African, Middle Eastern and European regions, combining terrestrial and subsea routes to provide the lowest latency connections.
With a capacity of at least 40 terabits per second across 5 fiber pairs, AAE-1 is designed from the outset with 100Gbps transmission technology, which may be upgraded in the future to fulfill increasing bandwidth demand. Configured with express routes and the minimum number of hops between Points of Presence (PoPs) in Europe and Asia, AAE-1 is the high performance, economic solution for OTTs, international carriers and enterprise businesses.
Six specialized cable ships and numerous support vessels engaged in completing the installation in the Mediterranean, Red Sea, Indian Ocean and Gulf of Thailand. Network equipment was deployed and tested at more than half of the AAE-1 cable landing stations. Demand fueled by the economic expansion of countries will elevate AAE-1’s status as critical infrastructure, essential for growth along the route.
The subsea cable system was undertaken by a consortium of leading telecom companies including Etisalat, Mobily, Ooredoo, Omantel, Reliance Jio, Telecom Egypt, China Unicom and PCCW Global. The system connects Hong Kong, Vietnam, Cambodia, Thailand, with Malaysia and Singapore, then onwards to Myanmar, India, Pakistan, Oman, UAE, Qatar, Yemen, Djibouti, Saudi Arabia, Egypt, Greece, Italy and France.
Another major subsea cable rollout announced this year in July is the pan-Caribbean system which will span nearly 12,000 Km with initial landing points in 12 markets throughout the region, including the Cayman Islands, Curaçao, the Dominican Republic, Haiti, Jamaica, Puerto Rico, Trinidad & Tobago, and Turks & Caicos Islands, with dual diverse landings in the US, which will include the first landing of a cable on the Gulf Coast of Florida.
The Deep Blue Cable will meet an urgent demand for advanced telecom services across the Caribbean. TE SubCom was contracted by Saint Lucia-based Deep Blue, the developer, owner and operator of the system, to build and deploy the cable.
Speaking to Telecom Review back in July, Deep Blue CEO Steve Scott said the Deep Blue subsea cable network will offer an initial capacity of 6 Tb/s per fiber pair and is projected to be completed in Q4 of 2019. It will ensure availability, competitive pricing and capacity resilience, he said.
“The Deep Blue cable system will play a critical role in serving developing Caribbean countries that are now experiencing a surge in demand for advanced telecom services and currently rely on fiber-optic connectivity that is technologically and economically disadvantaged,” said Scott.
New Zealand-based Hawaiki Submarine Cable LP and TE SubCom, a TE Connectivity Ltd company, announced that the 14,000 km of undersea fiber-optic cable that comprise the Hawaiki transpacific cable system are in the final stages of being loaded aboard TE SubCom’s cable laying vessels ‘CS Global Sentinel’and‘CS Responder’. Installation of the system will commence in early October 2017.
“The coming months will see the realization of our vision for Hawaiki, a system that will impact the capabilities and economies of hundreds of Pacific communities,” said Remi Galasso, CEO of Hawaiki. “Considering the scope of the project, the progress to date has been staggering. It is a thrill to reach the installation phase and know that we will soon be ready to light the system and deliver much needed capacity to the region.”
Manufacturing has concluded at SubCom’s Newington, New Hampshire, U.S. facility, including more than 14,000 km of cable for Hawaiki and more than 170 completed repeaters. Cable has been fully loaded onto the ‘CS Global Sentinel’, and the ‘CS Responder’load is near completion. Horizontal directional drilling (HDD) for the cable landing in Pacific City, Oregon and Sydney, Australia has been completed.
All installation permits for Australia, New Zealand and Oregon are already in hand, and continue to progress as expected in Hawaii. In Sydney, the construction of the land duct route is complete, the installation of the terminal equipment has started and the pulling of the land cable is scheduled to begin shortly. In New Zealand, the construction of the land duct route is complete and the construction of a new cable station is underway. The system is on schedule for completion by mid-2018.
Hawaiki will link Australia and New Zealand to the mainland United States, as well as Hawaii and American Samoa, with options to expand to additional South Pacific islands. Hawaiki will be the highest cross-sectional capacity link between the U.S. and Australia and New Zealand. The carrier-neutral cable system was co-developed by New Zealand-based entrepreneurs Sir Eion Edgar, Malcolm Dick and Remi Galasso.
Hawaiki Submarine Cable LP and TE SubCom, a TE Connectivity Ltd. company and an industry pioneer in undersea communications technology, announced that new milestones have been reached in the manufacturing of Hawaiki, the 14,000 km transpacific cable system that will link Australia and New Zealand to the mainland United States, as well as Hawaii and American Samoa, with options to expand to several other South Pacific islands.
The manufacturing progress, as well as continued advancement with the installation permitting process in New Zealand, Australia and the U.S., keeps Hawaiki on schedule for completion by mid-2018.
At SubCom’s Newington, N.H. USA facility, more than 13,000 km of cable for Hawaiki has been manufactured, along with more than 150 completed repeaters. All installation permits for Australia, New Zealand and Oregon are in hand, and are progressing as expected in Hawaii.
Horizontal directional drilling (HDD) for the cable landing in Pacific City, Oregon has commenced and will be completed in the coming weeks. In Sydney, the construction of the land duct route is moving forward – with more than half of the conduits already installed – and the HDD operations are scheduled to start early next month. The first cable load including 7,000 km of cable will begin in June 2017.
Hawaiki will be the highest cross-sectional capacity link between the U.S., Australia and New Zealand. As a carrier-neutral cable system, Hawaiki will usher in a new era of international connectivity benefitting businesses and consumers across the Pacific region. The system was co-developed by New Zealand-based entrepreneurs Sir Eion Edgar, Malcolm Dick and Remi Galasso.
“We’re very close to completing the manufacturing stage of Hawaiki and are preparing to launch installation in just a matter of months,” said Remi Galasso, CEO of Hawaiki. “Once live, this cable system will help eliminate the distance between all Pacific communities and provide an economic boost to a region consistently starved for broadband access.”
“As expected, our manufacturing team has made rapid progress on Hawaiki,” said Debra Brask, vice president, project and program management, TE SubCom. “Each stage of the Hawaiki cable system project has proceeded without issue and we’re looking forward to an on-time delivery in mid-2018.”
New Zealand-based Hawaiki Submarine Cable LP and TE SubCom, a TE Connectivity Ltd company specializing in subsea communications technology, announced on January 16, the completion of the route survey for Hawaiki, the 14,000 km transpacific cable system scheduled for completion in mid-2018. The cable will link Australia and New Zealand to the mainland United States, as well as Hawaii, American Samoa, and potentially other South Pacific islands.
Cable and repeater manufacturing for the system continues unabated at SubCom’s Newington, N.H. USA facility, while the permitting process for implementation of Hawaiki is progressing as planned.
Hawaiki will be the highest cross-sectional capacity link between the U.S. and Australia and New Zealand. As a carrier-neutral cable system, Hawaiki will usher in a new era of international connectivity benefitting businesses and consumers across the Pacific region. The system was co-developed by New Zealand-based entrepreneurs Sir Eion Edgar, Malcolm Dick and Remi Galasso.
SubCom has completed the route survey for the entire Hawaiki system, including the small boat and shallow water work for all landings. Manufacturing continues at SubCom’s facility, with more than 4,500 km of completed cable and more than 25 completed repeaters. Production of Hawaiki branching units, which will enable the connection of American Samoa, New Caledonia, Fiji and Tonga, has commenced. The permitting process for Hawaiki is well under way, with Australian installation permits already issued and additional landing permits filed in Oregon, Hawaii and New Zealand.
“The start of 2017 finds the Hawaiki cable system closer and closer to ready for service,” said Remi Galasso, CEO of Hawaiki. “The information garnered from the recently completed deep water route survey will be instrumental in ensuring the long-term viability of the cable system and we are thrilled with the progress on the cable and repeater manufacturing efforts. Installation will begin later in 2017 and a fully lit system that should positively impact the entire region is soon to follow.”
Galasso continued, “Our partnership with Hawaiki’s operations team is very productive and system manufacturing is well on track,” said Debra Brask, vice president, project and program management, TE SubCom. “In addition, permits are secured in Australia and are well underway in other locations. We continue to be on schedule for a mid-2018 completion.”
Hawaiki will land its proposed 14,000 km trans-Pacific cable between Australia, New Zealand, Hawaii and the US West Coast in Pacific City, Oregon.
Following the completion of the marine survey of the 4,000 km segment between Pacific City and Honolulu, Hawaiki has achieved another key milestone of the system deployment by securing its Oregon operations through the Landing Party Agreement with Alaska Communications.
“Oregon is probably the best state on the US West Coast to land a submarine cable. The coast is relatively safe, the state permitting process is efficient and most importantly, our customers like Oregon’s diversity and easy access to US networks and data centers. We are pleased to have a long-term partnership with Alaska Communications, who understands our customers’ requirements in terms of system performance and quality of service,” said Gina Bohreer, senior vice president North America of Hawaiki.
“As part of the US permitting process for international submarine cable, Hawaiki has subsequently submitted its application to the Federal Communication Commission.”
“Hawaiki and Alaska Communications are both committed to the highest quality and reliability standards. Today, Alaska Communications manages two geographically diverse, submarine cables between Alaska and the Pacific Northwest. We have leveraged our expertise in submarine cable operations to provide landing station and network management capabilities to several other Trans Pacific submarine systems. Now, we are pleased to extend our network managed service capabilities to Hawaiki and its Oregon landing station,” said Bill Bishop, senior vice president, business markets at Alaska Communications.