Breaking news

Blue Origin’s TeraWave Network: Jeff Bezos’ Vision to Rival Starlink

by THEFUTURE.TEAM

January 22, 2026

Blue Origin’s New Frontier in Satellite Communications

Jeff Bezos’ space venture, Blue Origin, has unveiled an ambitious plan to deploy 5,408 satellites to form its TeraWave network. Designed for enterprise, data center, and government applications, the constellation promises unprecedented data speeds, boasting up to 6 terabits per second with satellites positioned in both low Earth and medium Earth orbits.

Competing in a Crowded Market

The launch of TeraWave, scheduled to begin in the fourth quarter of 2027, marks Blue Origin’s strategic entry into the competitive satellite internet arena currently dominated by SpaceX’s Starlink. Starlink, operated by Elon Musk, currently maintains a fleet of over 9,000 satellites and serves approximately 9 million customers globally, creating significant market pressure for any aspiring competitor.

Follow THE FUTURE on LinkedIn, Facebook, Instagram, X and Telegram

Amazon’s Parallel Satellite Endeavor

In addition, Jeff Bezos’s legacy extends to the e-commerce giant Amazon, which has also accelerated its satellite initiatives. Amazon’s project, recently rebranded from Project Kuiper to Leo, has already seen the deployment of 180 satellites through launches by partners such as United Launch Alliance and SpaceX. With a vision to establish a constellation of 3,236 low Earth orbit satellites, Amazon aims to cater to a diverse clientele ranging from businesses to governments.

A Vision for the Future

Bezos is no stranger to ambitious ventures. In a 2024 interview, he predicted that Blue Origin could eventually eclipse Amazon in scale, a claim that underscores his enduring belief in the transformative potential of space technology. With leadership that includes notable figures such as former Amazon devices chief Dave Limp as CEO, Blue Origin’s trajectory is one to watch as it challenges established players in both the space and communications sectors.

Industry Implications

The forthcoming TeraWave network not only underscores the intensifying competition in satellite internet but also highlights the broader implications for global connectivity. By promising superior bandwidth and reduced latency, Blue Origin aims to attract critical sectors that demand reliable high-speed data transmission, setting the stage for a dynamic reshaping of the telecommunication landscape.

As the satellite internet race heats up, industry watchers and investors will be closely monitoring Blue Origin’s deployment strategy and its ability to carve out a substantial market share against entrenched competitors like SpaceX’s Starlink.

The Future Forbes Realty Global Properties

Women Make Up A Majority Of The EU’s Science And Technology Workforce But The Real Gap Is Elsewhere

by News Editor

June 25, 2026

Women now make up the majority of the EU’s science and technology workforce. According to Eurostat, in 2025, more than 81.6 million people aged 15 to 74 were employed in science and technology occupations across the EU. Of those, 52.5% were women, equal to 42.8 million women. The number of women in these occupations rose by 27.9% compared with 2015, an increase of more than 9.3 million over a decade.

On the surface, the numbers resemble progress. However, Eurostat’s category requires context before that figure can be read accurately. The data refers to HRST, or Human Resources in Science and Technology, specifically people employed in science and technology occupations. These are roles where the main tasks require professional or technical knowledge in physical and life sciences, but also in social sciences and humanities. That definition is wider and broader than engineering, ICT, laboratory science, or high-tech research alone.

Follow THE FUTURE on LinkedIn, Facebook, Instagram, X and Telegram

Zooming In

The gender picture changes once the data moves from a wider definition of the workforce to the narrower scientist-and-engineer (research and manufacturing) subgroup.

Scientists and engineers represented almost a quarter of all people employed in science and technology in the EU in 2025. Eurostat describes scientists and engineers as often being the innovators at the centre of technology-led development, making them an important subgroup to focus on separately.

Women accounted for only 40.8% of scientists and engineers in 2025, despite making up more than half of the wider category. That share has increased by a mere 0.5 percentage points over the past decade. The absolute number of women working as scientists and engineers rose from 5.3 million in 2015 to 8.2 million in 2025, despite the push from national and international organisations to increase the number of women in the field. Europe has expanded the number of women in science and technology occupations over ten years. However, that expansion has not extended equally into the scientist-and-engineer subgroup, where much of Europe’s research and innovation work is conducted.

In 2025, of the 39.4 million women aged 25 to 64 working in science and technology occupations in the EU, 35.5 million worked in service activities. Only 2.7 million worked in manufacturing. Women accounted for 57.5% of science and technology employment in services, but only 31.3% in manufacturing.

In 2025, the highest shares of women employed in science and technology occupations were recorded in Latvia at 62.4%, followed by Hungary’s Great Plain and North region at 61.1%, Estonia at 60.5%, Poland’s Central macroregion at 60.4%, and Lithuania at 60.3%. No EU country recorded a majority of women among science and technology workers in manufacturing.

Break-down

Eurostat’s figures measure employment in broad science and technology occupations. They do not show job security, pay levels, management roles, promotion rates, research leadership, or whether women are concentrated in junior or senior workplace positions.

The classification of “senior” also requires additional explanation. Eurostat reports that 45.9% of science and technology workers aged 25 to 64 in the EU were classified as “senior” HRST in 2025. In this dataset, “senior” refers to workers aged 45 to 64. It does not mean senior manager, senior researcher, team lead, or decision-maker.

A high female share in the wider Human Resource Science and Technology (HRST) category does not parallel equal representation across scientists, engineers, manufacturing roles, senior posts, pay, research funding, or decision-making. These figures also reflect the occupational mix inside each country or region, not only structural progress across all areas of science and technology.

The Case Of Cyprus

Eurostat data places Cyprus’s overall science and technology employment at 37.2% of the labour force in 2025, slightly above the EU-27 figure of 36.9%, and above Greece at 26.8%, Malta at 33.9%, and Turkey at 18.2%. This figure covers the total share of the labour force employed in science and technology across all genders.

Progress Or Work-in-Progress?

52.5% in the broad category. 40.8% among scientists and engineers. 31.3% in manufacturing. Europe’s gender gap in science and technology hasn’t closed yet, and there is still work to be done to encourage and support more women to enter the field, especially in research and manufacturing.

Let’s not wait another decade for another couple of percentage points of hope.