Precise accurate measurement of the administration of drugs using the injection method by means of ultrasonic pulse-echo principles

What is claimed is: 1. A dosage control system comprising: a syringe including a barrel and a plunger, wherein the plunger includes a plunger seal located within the barrel, and wherein the barrel includes an end configured to connect to a needle, wherein the plunger seal includes a reflective surface, wherein the reflective surface (i) is located within the barrel opposite the end configured to connect to the needle and (ii) faces the end of the barrel configured to connect to the needle, and the end of the barrel configured to connect to the needle includes a piezoelectric transducer arranged to transmit a plurality of sound pulses from the end of the barrel configured to connect to the needle, through medication contained within the barrel, and toward the plunger seal, wherein the piezoelectric transducer is attached to an inner surface of the end of the barrel; and a dosage control module that determines the type of the medication contained within the barrel of the syringe and, based on (i) the determined type of the medication contained within the barrel of the syringe and (ii) the sound pulses transmitted through the medication, measures a first distance between the plunger seal and the end of the barrel configured to connect to the needle, measures at least one second distance between the plunger seal and the end of the barrel configured to connect to the needle, determines whether a predetermined amount of medication has been administered from the syringe based on a difference between the first distance and the at least one second distance, and selectively activates at least one of a visual indication and an audio indication if the predetermined amount of medication has been administered from the syringe. 2. The dosage control system of claim 1 , wherein the dosage control module measures the first distance and the at least one second distance based on an amount of time for the plurality of sound pulses to travel between the end of the barrel configured to connect to the needle and the plunger seal. 3. The dosage control system of claim 2 , wherein the dosage control module transmits a plurality of voltage pulses to the piezoelectric transducer, the piezoelectric transducer converts the plurality of voltage pulses into the plurality of sound pulses, and the plurality of sound pulses are reflected back to the piezoelectric transducer from the reflective surface. 4. The dosage control system of claim 2 , wherein the dosage control module includes a time-to-digital converter that calculates the amount of time. 5. The dosage control system of claim 1 , wherein the dosage control module determines the type of the medication contained within the barrel of the syringe using information input via a user interface. 6. The dosage control system of claim 1 , wherein the dosage control module: transmits a series of calibration pulses with the plunger in a known position to determine a duration for the calibration pulses to travel through the medication; and measures the first distance between the plunger seal and the end of the barrel configured to connect to the needle and measures the at least one second distance between the plunger seal and the end of the barrel configured to connect to the needle based on the determined duration for the calibration pulses to travel through the medication with the plunger in the known position. 7. The dosage control system of claim 6 , wherein the known position is a fully withdrawn position of the plunger. 8. The dosage control system of claim 1 , wherein (i) the first distance corresponds to an amount the plunger is withdrawn to draw the medication into the barrel and (ii) the second distance corresponds to an amount the plunger is pressed to administer the medication from the barrel. 9. The dosage control system of claim 1 , further comprising an air bubble detection module that determines whether air bubbles are present within the medication based on the sound pulses transmitted through the medication.