Cori

🎯 Case Study: Cutting CPA by 4x We worked with a Telegram Mini App (TMA) game where players earn rewards by completing tasks. Starting Point - CTR stuck at 0.8% - CPA > $1 per user Our Goal 👉 Bring CPL below $20. 🧐What We Did - Simplified onboarding to reduce drop-offs - Rebuilt creatives around player motivations - Optimized targeting step by step to boost CTR / CPC / CPA Leveraged Ads3’s ecosystem for growth efficiency Results 🚀 - CTR jumped to 3.2% - CPA cut to $0.25 📩 Join Ads3 https://t.co/BBD7DdCHr2 and power your growth journey!

Dexterous hands are one of the biggest challenges in robotics, with even Elon Musk noting their development accounts for half of a humanoid robot's total work. A new approach from the Y-Hand M1 bionic hand may be a significant step forward. Based on an international first-of-its-kind "bionic tension-compression theory," the M1 replaces traditional rigid hinges with a 6-DoF joint system and uses self-developed magnetic artificial muscles. This design allows it to perform complex, human-like tasks, including: ► Mastering all 33 Feix dexterous grasp categories. ► Precisely twirling playing cards and threading a needle with subtle human-like adjustments. ► Smoothly twisting bottle caps and turning book pages. The team behind the M1 is already working on the next-gen Y-Hand M3, aiming for around 70 degrees of freedom, believing that robotic hands may soon reach or even exceed human-level dexterity.

South Korean robotics company WIRobotics has officially released ALLEX, designed for high-precision industrial and manufacturing applications. Perhaps one day, you'll be able to use it to repair cars and furniture. ALLEX is currently just a half-body, but its highly dexterous hands and intelligent brain are clearly more important.

South Africa’s first humanoid robot, George, was designed and built by Stellenbosch University’s Faculty of Engineering. George can track movements, mimic gestures like a thumbs-up, and engage in natural conversation. Currently a torso prototype, it’s expected to walk in the near future.

Agility Digit and Figure Robot have a new competitor. Techman Robot from Taiwan has launched the TM Xplore 1, a wheeled humanoid robot. It will primarily be used in warehouses and production lines for tasks such as moving packages, sorting equipment parts, and assembly. It can also work alongside its collaborative robots. Techman is a subsidiary of Quanta Computer Group, the world's largest laptop manufacturer and the sole manufacturer of Apple Watches and MacBooks.

Carnegie Mellon University's College of Engineering has developed "Zippy," the smallest, fastest, power-autonomous bipedal robot. Standing at just under 1.5 inches tall—comparable to a LEGO minifigure—Zippy is capable of self-starting from a standstill, walking at over 10 leg lengths per second (equivalent to an adult human walking at 19 mph), turning, skipping, and ascending small steps, all powered by its onboard battery, actuator, and control system . The robot was developed as part of a multiyear NSF-supported project led by Professors Aaron Johnson and Sarah Bergbreiter, aiming to understand locomotion at small scales to build more capable miniature walking robots. Undergraduate students Soma Narita and Josef Macera contributed to Zippy's design, which builds upon the team's prior steerable bipedal robot, Mugatu. Zippy's walking mechanism involves lifting its front leg and shifting its center of gravity forward, using momentum and a rounded front foot to enable the other leg to swing through and take a full step. Due to its small size, Zippy employs a mechanical hard stop as a joint limit for its hip instead of a servo. Video Credit: Carnegie Mellon Engineering #engineering #technology #robots #robotics -------------------------------- Stay ahead of the curve! Follow us now on our WhatsApp (https://t.co/YBAHioUWe6) and Telegram (https://t.co/pszbf78JMc) channels and stay updated about the cutting edge.