You'd like to accomplish 2 things:
1) Encrypt the traffic so that it is hidden from outsiders (confidentiality). You can accomplish this quite easily simply by enforcing that SSL is used for traffic between the client(s) and the server. The server will require an x509 certificate to accomplish this.
2) Ensure that all traffic coming to the server originates from a trusted client/POS (integrity). You can accomplish this using a couple of different techniques, both of which require an x509 certificate installed on each client (POS) system:
a) Require that all requests to the server be accompanied by client certificates. In this scenario, the client (POS) has a x509 certificate installed, for which it is able to access its own private key (the server does not, and should not have this private key, it belongs to the client). The server is configured to require client certificates with each request, it also is configured to validate that the client certificate presented does indeed match one of the POS systems. So if you add a new POS later, you need to make a change to the server ensuring that it will consider the new POS cert valid. Here is a description of the protocol for your own enrichment, you shouldn't need to know exactly how it works (because most tools IIS, Apache, etc. will abstract much of this for you) but it does demystify things a bit. http://publib.boulder.ibm.com/infocenter/tivihelp/v5r1/index.jsp?topic=%2Fcom.ibm.itim.infocenter.doc%2Fcpt%2Fcpt_ic_security_ssl_authent2way.html
b) Require that all requests to the server are digitally signed by trusted clients. Public key (asymmetric) encryption allows you to sign a message. Basically it is signed with the client's (POS) private key, and then anyone (including the server) can verify its integrity by validating the signature using the client's public key. Many tools will actually encrypt and sign the message, which is OK, but if you're already using SSL and performance is a concern, you don't need to encrypt twice. If security is more important than performance, encrypting twice can't hurt. Here is some more info on digital signatures: http://www.cgi.com/files/white-papers/cgi_whpr_35_pki_e.pdf
So you should have a pretty good plan of how to proceed. Feel free to ask around here when you set out to implement these solutions, as there are a lot of things that usually don't work the first time around and debugging it is often difficult. I do recommend a tool called Fiddler or WireShark, which can help debug web services to some extent. Be sure that your client(s) can access their own private keys, and that the certificates of the clients are trusted by the server. Good luck.