Ad-hoc wireless communication network including wearable input/output transducers

We claim: 1. A processor, comprising: a receiver to receive a first sensor reading from a first sensor and information from a remote processor; a transmitter to transmit signals over a local ad-hoc wireless network to a first indicator and over a wireless network to a remote processor; and an intelligent agent to formulate a response to the first sensor reading and to transmit the response over the local ad-hoc wireless network or the wireless network based on a characteristic of the response; wherein the intelligent agent is to formulate a response to the first sensor reading by matching the sensor reading with a stored sensor reading in a first database and by selecting the response associated with the matching sensor reading in the first database; a second database to store identifications of users and relationships between users; wherein the intelligent agent is to: identify the first sensor reading as originating with a first user; query the second database for a second user having a relationship to the first user; and transmit the response to the second user; wherein at least one of the first sensor or the first indicator is to be attached to a wearable article. 2. The processor of claim 1 , wherein the local ad-hoc network is to be formed when the first sensor, the first indicator, and the processor are activated within a reception range of each other. 3. The processor of claim 1 , wherein the characteristic of the response is to be a low, medium, or high urgency to be associated with the response in a first database store on the processor. 4. The processor of claim 3 , wherein the intelligent agent transmits all high-urgency responses over the local ad-hoc network with priority over medium-urgency and low-urgency traffic. 5. The processor of claim 3 , wherein the first indicator is to communicate whether the urgency is low, medium, or high, and wherein the response includes a low, medium, or high urgency designation. 6. The processor of claim 1 , further comprising a third database to store a procedural template and an associated trigger signal; wherein the intelligent agent is to transmit the procedural template to the first indicator upon receiving the associated trigger signal. 7. The processor of claim 1 , further comprising a fourth database; wherein the response or the characteristic of the response is to exhibit a variation influenced by a current condition; and wherein the fourth database is to sense the current condition and to calculate an adjusted response or an adjusted characteristic to take account of the variation. 8. The processor of claim 1 , further comprising a recorder to record and store the sensor reading. 9. A system, comprising: a first sensor; a first indicator; a remote processor; a local processor to connect to the first sensor and the first indicator through a local ad-hoc network and to connect to the remote processor through a network, wherein the local processor comprises: an intelligent agent to formulate a response to the first sensor reading and to transmit the response over the local ad-hoc wireless network or the wireless network based on a characteristic of the response; wherein the intelligent agent is to formulate a response to the sensor reading by matching the sensor reading with a stored sensor reading in a first database and by selecting the response associated with the matching sensor reading in the first database; a second database to store identifications of users and relationships between users; wherein the intelligent agent is to: identify the first sensor reading as originating with a first user; query the second database for a second user having a relationship to the first user; and transmit the response to the second user; a receiver to receive a signal; a signal recognition engine to identify the signal as a sensor reading or as a message from the remote processor; an event/response database to determine a response to the signal, an urgency of transmitting the response, and a destination and routing for the response based on the urgency; and a transmitter to transmit the response to the indicator or to the remote processor; wherein the first sensor or the first indicator is attached to a wearable article. 10. The system of claim 9 , wherein the first sensor and the first indicator are to be attached to a wearable article or articles worn by a first user. 11. The system of claim 9 , wherein the first sensor is to be attached to a wearable article worn by a first user and the first indicator is to be attached to a wearable article worn by a second user. 12. The system of claim 9 , wherein the first sensor is to be attached to a wearable article worn by a first user and the first indicator is to be mounted to a vehicle or communication hub. 13. The system of claim 9 , wherein the first indicator is to be attached to a wearable article worn by a first user and the first sensor is to be mounted to a vehicle or communication hub. 14. The system of claim 9 , wherein the first indicator comprises a haptic transducer attached to a wearable article, wherein the haptic transducer is to be positioned to deliver a haptic signal to the first user's body.