Supercharging Patent Lawyers With AI

How Silicon Valley's Lex Machina is blending AI and data analytics to radically alter patent litigation

11 min read
Supercharging Patent Lawyers With AI
Illustration: Mark Allen Miller

In a low-rise building in Menlo Park, Calif., just upstairs from a Mexican restaurant and a nail salon, a Stanford University spin-off is crunching data in ways that could shake the foundations of the legal profession.

Keep reading... Show less

Stay ahead of the latest trends in technology. Become an IEEE member.

This article is for IEEE members only. Join the world’s largest professional organization devoted to engineering and applied sciences and get access to all of Spectrum’s articles, podcasts, and special reports. Learn more →

Membership includes:

  • Get unlimited access to IEEE Spectrum content
  • Follow your favorite topics to create a personalized feed of IEEE Spectrum content
  • Save Spectrum articles to read later
  • Network with other technology professionals
  • Establish a professional profile
  • Create a group to share and collaborate on projects
  • Discover IEEE events and activities
  • Join and participate in discussions

Carbon-Removal Tech Grabs Elon Musk’s Check

Millions poured into XPrize effort to pull CO2 out of the sky

7 min read
A computer rendering showing Project Hajar sited in the Al Hajar mountains in Oman, capturing 1000 tons/year of CO2.

London’s Mission Zero Technologies has developed an energy-efficient way of capturing carbon dioxide from the atmosphere and sequestering it into the dominant rock (peridotites) of the upper part of the Earth’s mantle.

mission zero/44.01

Stretching across the northern coasts of Oman and the United Arab Emirates loom the vast jagged peaks of the Al Hajar mountains. The craggy outcrops are made mostly of a rock called peridotite, which absorbs carbon dioxide from the air and turns it into solid minerals. The mountains could store trillions of tonnes of human-made CO2 emissions, but the natural carbon-mineralization process works at a glacial pace.

London startup 44.01 has found a way to speed it up. For this endeavor, 44.01 is teaming up with another London startup, Mission Zero Technologies, which has developed an energy-efficient method to capture CO2 from air. Called Project Hajar, it plans to pull 1,000 tonnes of CO2/year from air at a demonstration facility in Oman, injecting some 3–4 tonnes/day into the peridotite rocks. A 120 tonne-capacity pilot plant will come online in the first half of 2023.

Keep Reading ↓ Show less

What Is Wi-Fi 7?

Great capacity, less latency—here's how IEEE 802.11be achieves both

4 min read
A purple circle with the number 7 in the middle. Curved purple lines radiate out from the circle to the left and right.
Shutterstock

New generations of Wi-Fi have sprung onto the scene at a rapid pace in recent years. After a storied five-year presence, Wi-Fi 5 was usurped in 2019 by Wi-Fi 6, only for the latter to be toppled a year later in 2020 by an intermediate generation, Wi-Fi 6E. And now, just a couple years later, we’re on the verge of Wi-Fi 7.

Wi-Fi 7 (the official IEEE standard is 802.11be) may only give Wi-Fi 6 a scant few years in the spotlight, but it’s not just an upgrade for the sake of an upgrade. Several new technologies—and some that debuted in Wi-Fi 6E but haven’t entirely yet come into their own—will allow Wi-Fi 7 routers and devices to make full use of an entirely new band of spectrum at 6 gigahertz. This spectrum—first tapped into with Wi-Fi 6E—adds a third wireless band alongside the more familiar 2.4-GHz and 5-GHz bands.

Keep Reading ↓ Show less

This Gift Will Help Your Aspiring Engineer Learn Technology

Know someone that is hard to shop for? We have the perfect gift for you.

4 min read