"It's the OSU Campus Target. Not the l\none on Hogh Street, this is the "bigger" one.\nSo, it can be quite busy and hectic but offers all the selections you might expect at a bigger target\nstore.\n\nThis location serves the entire Tri-village, Upper\nArlington & Grandview Heights areas,\nas well as the OSU/Short North/Victorian Village communities. Lots of people and a very busy parking lot.\n\nOfferings include pre-order purchase curbside pick up."
Walmart Supercenter
2
47
1693 Stringtown Rd, Grove City
OPEN · 06:00 - 23:00 · +1 614-539-8560
"I use to be a Walmart shopper for year's but the service is terrible. I've done pick up orders 1/2 my stuff would be outdated or expire in a few days. Their prices use to be the cheapest. Now that is not the case. I tried a delivery order and spent close to $90.00 when the NON ENGLISH SPEAKING person set two items on my porch and left because we couldn't communicate I was livid. \n\nHello Kroger & Meijer"
Walmart Supercenter
2
41
3657 E Main St, Whitehall
OPEN · 06:00 - 23:00 · +1 614-239-7509
"I got a great bouquet of roses from Walmart last week for only $6. They've been blooming beautifully each day and looked great in my girls night centerpiece."
PetSmart
2.5
17
476 Corwin Nixon Blvd, South Lebanon
OPEN · 09:00 - 21:00 · +1 513-494-3125
"Everything the salon always finds a way to get out of work put on production make em meet a quota I'm tired of showing up to find out they can't do s*** !!!"
A vision-based control system called Neural Jacobian Fields enables soft and rigid robots to learn self-supervised motion control using only a monocular camera. The system, developed by MIT CSAIL researchers, combines 3D scene reconstruction with embodied representation and closed-loop control.
The word “robot” was coined by the Czech writer Karel Čapek in a 1920 play called Rossum’s Universal Robots, and is derived from the Czech robota, meaning “drudgery” or “servitude”.
MIT researchers developed an aerial microrobot that can fly with speed and agility comparable to real insects. The research opens the door to future bug-sized robots that could aid in search-and-rescue missions.
A hopping, insect-sized robot can jump over gaps or obstacles, traverse rough, slippery, or slanted surfaces, and perform aerial acrobatic maneuvers, while using a fraction of the energy required for flying microbots.
MIT roboticists developed a way to cut through data noise and help robots focus on the features in a scene that are most relevant for assisting humans. The system could be used in smart manufacturing and warehouse settings where robots would work alongside and assist humans.
Robot, know thyself: New vision-based system teaches machines to understand their bodies Neural Jacobian Fields, developed by MIT CSAIL researchers, can learn to control any robot from a single camera, without any other sensors.
A new system enables a robot to “think ahead” and consider thousands of potential motion plans simultaneously, allowing the robot to solve a multistep problem in a few seconds.
Founded by MIT alumni, the Pickle Robot Company has developed robots that can autonomously load and unload trucks inside warehouses and logistic centers.
SPROUT is a flexible robot built by MIT Lincoln Laboratory and Notre Dame researchers to assist in disaster response. Emergency responders can use the robot to navigate and map areas under rubble to plan rescue operations.
The robot consists of a heavy, 220-pound base whose dimensions and structure were optimized to support the weight of an average human without tipping or slipping. Underneath the base is a set of omnidirectional wheels that allows the robot to move in any direction without pivoting, if needed.
