Hard wallet: a new trust basis for digital payment

What is claimed is: 1. A sealed material wallet outputting digital money bits to a payee device which trusts the incoming bits based on authentication of the wallet on account of measuring properties of the wallet and comparing these measurements to listed properties issued by the manufacturer of the wallet, comprising: (i) a secure enclosure constructed as a random assembly of materials of different electric conductivity, with w drawn conductive wires inside, where each wire terminates on one end on the surface of the wallet, and on the other end at a random location inside the secure enclosure, and (ii) a payment port, fitted on the secure enclosure, and (iii) a computing element with payment circuitry including digital bit money fitted inside the secure enclosure, and (iv) a Human-Machine communication element, fitted on the surface of the secure enclosure, wherein the payee device authenticates the wallet by applying an electric current between arbitrary set of p “plus” wires selected among the w wires, and a different arbitrary set of m, “minus” wires, such that m+p<w, and thereby measures the effective electric resistance, R(p,m) of the wallet relative to the selection of the p positive (plus) and the m negative (minus) wires, and then comparing R(p,m) to a listed value for this measurement issued by the manufacturer of the wallet, then repeating such measurement over different groups of positive and negative wires, for arbitrary number of measurements, then concluding, upon agreement between all measurements to their respective wallet manufacturer listed values, that the wallet is authentic and therefore the payment bits outputted by it are valid payment, and wherein the owner of the wallet uses the Human Machine communication element to instruct the wallet to pay a certain amount to the payee, that amount, if available in the wallet, is forwarded as a stream of bits through the payment port where the payee device collects the money. 2. The sealed material wallet in claim 1 wherein a first wallet includes an apparatus to authenticate a second wallet, and accept digital money bits coming from the second wallet to the first wallet, the apparatus comprising: (i) an authentication element wherein electrical contacts are attached to selected wires in the second wallet, and an electrical current is effected between any selected “plus” wires in the second wallet and any selected “minus” wires in the second wallet, that current being measured by the apparatus of the first wallet, and used to compute the effective resistance of the second wallet per the particular selection of positive and negative wires in the second wallet, comparing this resistance to a pre-loaded resistance value published by the manufacturer of the second wallet, conducting repeating measurements of the second wallet per different selections of positive and negative wires within the second wallet, and if all measurements agree with the pre-loaded respective published values, then the first wallet will accept digital bits money paid by the second wallet to the first wallet through the respective payment ports of the two wallets. 3. The sealed material wallet as in claim 1 wherein a security apparatus is incorporated so that only the owner of the wallet can operate it; this security apparatus is one or a combination of the following: (i) A data entry element to click a personal identification number, PIN, which is compared to a stored number, allowing for the operation of the wallet if the entered PIN agrees with the stored PIN, (ii) A biometric input element that takes a biometric measurement of the wallet operator, comparing this measurement to pre-stored data, allowing for the operation of the wallet only if the measured biometric data agrees with the pre-stored biometric data. 4. A payment station used to carry out a payment between two sealed material wallets as in claim 1 wherein the payment station connects to both wallets, and the money flows through the payment station, from the paying wallet to the paid wallet, and where the payment station is pre-loaded with wallet measurements data generated by the manufacturer of the wallets, and the payment station conducts the measurements of the paying wallet to validate for the paid wallet the bona fide status of the payment.