First, I will narrow down the scope of the question. By asking if there are any constraints like the size or weight of the person. Does this include items the person might be wearing or carrying, like a bag? What about metals or amputees, or implants?

Would there have to be another portal at the other end? Is this only one way, or can they go back and forth?

Are there any side effects from the transportation?

How does the transporter work? Do they need to hit a button or put it in a location? If so, how specific should they get with the location address? What if that location does not exist?

Does this include land, sea, and air?

Does it work underground or under the sea?

Goal

You have to have a transporter in both locations. The transporter will transport anything in the transporter at the time of transmission materials, or weight doesn’t matter. Currently, only one human can fit at a time. We need to build a secure user interface for the transporter.

User Groups

After discussing different user groups, the interviewer and I narrowed it down to the US military service men and women.

Needs

The interface must be activated by an internal chip that the service person has implanted under their skin. This chip checks the host DNA to ensure it is in the right person before transmitting. Also, the interface must scan the participant’s retina and fingerprints for authentification. Based on the location preferences in the chip, the user can select which transport to relocate to. These transporters will also scan the area’s interior to ensure that only the right participant is being transmitted and no one else. The transporter must be impact resistant. It can work anywhere there is another transporter, like underground or sea, even in an airplane. The transporter needs to scan the surroundings to see if it is safe and be manually activated by another service person at the other end every hour.

Prioritize the user’s needs.

Security is number one on the priority list. Security means that no unauthorized person can use the device.

Authorization before transmission

Authorization by service personnel that the other end

After teleportation, check to see if the right person is in the pod before opening it.

List my Solutions

We will use Wonka vision and Web 3.0 to transmit these individuals securely.

The infrastructure these teleporters use to communicate will be encrypted and sent via secure satellites between destinations. The interface will have two users an admin/authenticate and a teleporter. The admin must ascertain a safe location before the teleporter can be teleported. The teleporter must scan their chip implant, eyes, and hand before they are transported to the end destination.

When they reach their end destination, they must do the same to leave the pod.

All this technology already exists. We need to lock it down on a secure network and make them communicate with each other.

summary

In short, we will focus on the transport’s security aspect by using technology we already have, like chip implantation and eye and hand scanning technology in a closed, secure network.