Suppose I have a network of `N`

nodes, each with a unique identity (e.g. public key) communicating with a central-server-less protocol (e.g. DHT, Kad). Each node stores a variable `V`

. With reference to e-voting as an easy example, that variable could be the name of a candidate.

Now I want to execute an "aggregation" function on all `V`

variables available in the network. With reference to e-voting example, I want to count votes.

My question is completely theoretical (I have to prove a statement, details at the end of the question), so please **don't focus** on the e-voting and all of its security aspects. Do I have to say it again? Don't answer me that "a node may have any number identities by generating more keys", "IPs can be traced back" etc. because that's another matter.

Let's see the distributed aggregation only from the **privacy** point of view.

### THE question

Is it possible, *in a general case*, for a node to compute a function of variables stored at other nodes without getting their value associated to the node's identity? Did researchers design such a privacy-aware distributed algorithm?

I'm only dealing with privacy aspects, **not** general security!

### Current thoughts

My current answer is **no**, so I say that a central server, obtaining all `V`

s and processes them without storing, is necessary and there are more legal than technical means to assure that no individual node's data is either stored or retransmitted by the central server. I'm asking to prove that my previous statement is false :)

In the e-voting example, I think it's impossible to count how many people voted for `Alice`

and `Bob`

without asking all the nodes, one by one "Hey, who do you vote for?"

### Real case

I'm doing research in the *Personal Data Store* field. Suppose you store your call log in the PDS and somebody wants to find statistical values about the phone calls (i.e. mean duration, number of calls per day, variance, st-dev) without being revealed neither aggregated nor punctual data about an individual (*that is*, nobody must know neither whom do I call, nor my own mean call duration).

If a trusted broker exists, and everybody trusts it, that node can expose a `double getMeanCallDuration()`

API that first invokes `CallRecord[] getCalls()`

on every PDS in the network and then operates statistics on all rows. Without the central trusted broker, each PDS exposing `double getMyMeanCallDuration()`

isn't statistically usable (the mean of the means shouldn't be the mean of all...) and most importantly reveals the identity of the single user.